Abstract

This paper presents a novel, simple, robust, and very stable polarimeter which is able to measure in a single-shot the state of polarization (SOP) of an optical field. In this proposal, an optical field with an unknown SOP and an optical field with a reference SOP are superposed by using a double aperture common-path interferometer (DACPI), obtaining two interferograms with adjustable carrier frequency in a single shot. Each interferogram has different visibility and phase-step where the information of the unknown SOP is contained. It is shown that under a typical Fourier analysis any SOP can be successfully measured without the necessity of knowing the carrier frequency. The present proposal is justified mathematically and probed experimentally.

© 2018 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

Corrections

24 September 2018: Typographical corrections were made to the funding section.

1. Introduction

The measurement of the state of polarization (SOP) of an optical field has been an arduous task during the last decades. This activity has been motived mainly by its great utility in ellipsometry and polarimetry for detecting fractures in metallic structures [1,2], and optical activity [3]. Also, for estimating concentration of sugars [4], for characterization of liquid samples [3,5,6], nuclear polarization [7,8], and applications: medical [9], astronomic [10], and communications [12,13], among others. Many basic methods measure directly the intensity of the light beam that emerges from an optical system, which includes at least a wave plate and an analyzer [14–17]. Each Stokes parameter is obtained for the full spatial field by comparing the intensity of a set of images, acquired by changing lightly the system configuration. A typical method to vary the system configuration is done by rotating some or all the elements in discrete steps. However, these mechanical movements could introduce some drawbacks, for instance: mechanical vibration, system misalignment, and positioning errors. Another significant limitation in this kind of polarimeters is the inability to measure SOP in real time, because usually at least four frames are needed.

To overcome these drawbacks, there are several proposals to estimate the SOP in one-shot by the use of special optical elements such as image sensor microfilters [18–21], stress-engineered optical devices [22–25], scattered materials [26, 27], 2D metasurfaces [12], liquid crystal modulators [21,27], or special prisms [11,28], among others [29]. In some cases, however, the experimental schema can become very sophisticated and complicated, and its cost could be hight. Most of these techniques belong to the division of aperture polarimeters (DoAP) or the division of focal-plane polarimeters (DoFP), and some of them do not measurement the full spatial field.

Among the one-shot polarimeters are those based on interferometry [30–33] which belong to the division amplitude polarimeters (DoAmP), and provide a mapping of the full optical field. These kind of polarimeters are robust, simple, and maintain the advantages of being fast, thus they can be used in real-time measurements. Ohtsuka and Oka [31] proposed first a method for estimating a mapping of the SOP distribution of a test beam by interfering with a polarized reference beam. The optical system consists of a Mach-Zehnder interferometer with a Michelson interferometer coupled to its reference arm. The reference beam is composed of two optical fields with known orthogonal polarizations, and in each field component contains a spatial carrier frequency. Due to the two carrier frequencies, the interferogram Fourier spectrum has four spectral lobes; two for the interference term of the vertical components and two for the horizontal components. The Stokes parameters are estimated by comparing the information from de horizontal and vertical components using the Fourier method analysis. Naik et al. [32,33] complete this idea by including a third known optical field for self-calibration. With the introduction of a third beam, the number of spectral lobes in the Fourier space with information to be filtered amounted to four.

Nonetheless, these proposed interferometers are not of common-path schemes, for this reason they are exposed to errors due to environmental vibrations and optical path decompensations. To overcome these drawbacks, Han et al. [34] recently proposed a method to multiplex two carrier frequencies into a single interferogram by using a triple aperture common path interferometer, which is more stable and resistant to vibrations than Michaelson or Mach-Zehnder interferometers. However, this proposal needs to isolate more than one lobe from the same interferogram spectrum, therefore several band-pass filters are needed, whose positions could be an error source. As well two references and a test are proposed, which need three beams in total that could increment errors because atmospheric turbulence, and inhomogeneities in the illumination. Additionally, this method needs to capture intensities without the object placed in the test window before to do the measurements. It is well known [35,36] that one of the critical issues for Fourier transform analysis is to accurately extract the desired spectral order in the Fourier spectral domain, which requires a proper band-pass filter to retain the most information while keeping separate the background spectrum and the other higher order spectra [37]. An inadequate band-pass filter is a cause of carrier removal error and spectral leakage error, so the increase in spectral lobes number to be filtered also increases the risk of filtering errors, which is undesirable.

In this work, a method for measuring the SOP of an optical field in a single-shot is presented. This proposal is achieved in a modified double-aperture common-path interferometer (DACPI), which is very robust compared to interferometers with separate arms, such as the Michelson or Mach-Zehnder interferometers. The DACPI comprises a telescopic system to which a Ronchi ruling is placed at the Fourier plane, and this allows the two apertures in the input plane to overlap due to diffraction. At the output plane, there are multiple replicates of the interference pattern where two of them are filtered by two polarizers oriented at the horizontal and vertical axes respectively. Then, each interferogram has the information about the polarized field component. The carrier frequency is introduced by moving the Ronchi ruling out of the Fourier plane [38]. Since both interferograms are replicates of the same pattern, it is enough to identify one of the spectral lobes of an interference pattern and apply the same filter for the second interferogram, this allows to reduce errors due to the spatial filter. A great advantage of this proposal is that it is not necessary to know the spatial frequency; only it must be large enough to separate the diffraction orders.

2. Theoretical model

Figure 1 shows the schema of modified DACPI used to implement the proposed method. It consists of a 4 f optical system with two apertures at the input plane, and a grating placed outside the Fourier plane, which produces adjustable carrier fringes as it was demonstrated in [38]. These two apertures consist of rectangles of sides aw and bw separated by x0 on the horizontal direction. The left window is used as the probe window, where a polarized beam with an unknown elliptical SOP is introduced, while the right window is used as a reference window, where a linear SOP at π/4 respect to the x-axis is introduced, which is gotten by placing a polarizer Pπ/4 over the aperture. In order to explain in detail this process, let us suppose that an entrance optical field has a SOP described by the Jones vector, J = i cos σ + j exp()sin σ, where i denotes the imaginary unit, subject to the relation i2 = −1, i and j are unitary vectors, σ is known as the auxiliary angle and α = αyαx is the phase difference between the field components, αx and αy are their initial phases. This optical field is described in vector form as:

E(x,y,z,t)=A(x,y)exp[i(kzωt+αx)]=A(x,y)Jexp[i(kzωt+αx)],
which is a monochromatic plane wave traveling on z-direction, oscillating at ω frequency with wavelength λ and wavenumber k = 2π/λ, where A = AJ is its complex amplitude, and A is its magnitude. If this field crosses a polarizer at π/4, the new complex amplitude is calculated through Ar = Pπ/4A, where Pπ/4 = (1, 1; 1, 1)/2 is the Jones matrix, that is:
Ar=ArJrexp(iαr),
with
Jr=121/2(i+j),
where explicitly,
Ar2=12A2(1+sin2σcosα),
and
tanαr=sinαsinσcosσ+cosαsinσ.
Then, the transmittance function at the input plane can be defined as
tA(x,y)=w(x+12x0,y)AJexp(iϕp)+w(x12x0,y)ArJrexp[i(ϕr+αr)],
where for convenience the coordinates (x, y) have been omitted in the amplitudes A, Ar, and the phases ϕp, ϕr, which represent the phase variations accumulated because of beam propagation along the optical system. w(x, y) = rect (x/aw)rect(y/bw) describes a window function, with rect(…) denoting the rectangle function.

 figure: Fig. 1

Fig. 1 Schema of polarimeter based in a DACPI.

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As known, when the grating is placed outside of the Fourier plane, the complex amplitude at the image plane is given by [38]

t(x,y)=12n=sinc(12n)tA(x+λfupn,y)exp{ik2fΔff[(λfupn)22λfupnx]},
where up denotes the grating period with a fill factor of 1/2, n is an integer that denotes the diffraction order, ∆f denotes its axial translation from the Fourier plane, and f denotes the focal length of the lenses. Now by substituting Eq. (6) into Eq. (7), and assuming the matched condition λf/up = x0 for the interference, the optical field is:
t(x,y)=n=w[(n+12)x0x,y]{cncAJexp(iϕp)+cn+1cArJrexp[i(ϕr+αr)]},
where the complex coefficient is cnc=cnexp{ikΔf[(nx0)22nx0x]/2f2} with cn = sinc(n/2)/2. Now, if the optical field, for n = −1, is observed at the window w(−x0/2 −x′, −y′) through an analyzer at zero radians, as it can be appreciated in Fig. 1, the expression of the field is reduced to
t1x=c1ccosσAexp(iϕp)+121/2c0cArexp[i(ϕr+αr)],
and if the optical field, for n = 0, is observed at the window w(x0/2 − x′, −y′) through an analyzer at π/2 radians (see Fig. 1), then
t0y=c0csinσAexp(iϕp)exp(iα)+121/2c1cArexp[i(ϕr+αr)].

The irradiance observed by an optical detector from the optical fields described in Eq. (9) and (10) is given by

I1x=|c1c|A2cos2σ+12|c0c|2Ar2+21/2|c1c||c0c|AArcosσcos(ϕ+πλΔfup22πμ0x),
I0y=|c0c|2A2sin2σ+12|c1c|2Ar2+21/2|c0c||c1c|AArsinσcos(ϕπλΔfup22πμ0x+α),
where ϕ = ϕpϕrαr and μ0 = ∆f/upf. The πλf/up2 term is also known, measurable and constant if ∆f is not changed, it is easily removed through a simple calibration. Then, by applying the Fourier-transform to interferograms given in Eq. (11) and Eq. (12), and assuming that μ0 is large enough to separate the three lobules of the interferogram spectrums, it is possible filtering only one lobule at the time [35,36,38]. Thus we can obtain
dx=21/22c0c1AArcosσexp[i(ϕ2πμ0x)],
dy=21/22c0c1AArsinσexp[i(ϕ2πμ0x+α)],
where dx and dy are complex numbers that have information of SOP, object phase, and carrier frequency, and exponential functions form part of cosine in the Euler formula 2 cos(θ) = exp () + exp (−). Now, the SOP described by the Jones vector is given in terms of α and σ, then, by combining the expressions given in Eq. (13) and (14) the coefficients c0, c1, the amplitudes A, Ar, the phase ϕ, and the carrier frequency μ0 are missed,
d=dydx=tanσexp(iα),
which is a simple complex number whose magnitude contains σ and its phase is α, therefore, they are easily computed from
tanσ=(Re{d}2+Im{d}2)1/2,
tanα=Im{d}Re{d}.

If the test light beam is partially polarized, the Jones formalism cannot be applied [39,40], in this case, the Stokes parameters will be estimated by

S0=A02=dx2+dy2,
S1=cos(2σ)=dx2dy2S0,
S2=sin(2σ)cosα=2Re{dxdy*}S0,
and
S3=sin(2σ)sinα=2Im{dxdy*}S0,
where A0 = 21/2c0c1AAr/2, and the asterisk ∗ denotes the complex conjugate operator. Equation (16) to (21) are valid except when it becomes an undefined number, that is when dx = dy = 0. In this case, it is easy to see that Ar = 0 and from Eq. (4) can be established
sin(2σ)cosα=1,
and due to σ is defined positive within the range [0, π/2], this expression has a real solution when sin 2σ = 1, and cos α = −1 is that when σ = π/4, and α = π. Then, for this particular case, σ and α can be deduced only from Eq. (22). For the other cases than the particular case, σ and α are computed without ambiguity by using Eq. (16) to (21), which was deduced starting of two interferograms with carrier frequency changed in phase by a phase-step given by α captured in a single-shot. Because this method is built on a common-path interferometer achieved in a single-shot, this experimental setup is robust mechanically, immunity to vibrations, and useful to measure SOP of optical fields that change with the time.

3. Experimental verification

To verify the theoretical model of the interferometric polarimeter studied in the previous section, the schema depicted in Fig. 1 was implemented. The illumination source consisted of a semiconductor laser RGB-655/500mW using the green line with λ = 532nm. The built DACPI was composed of two lenses with the same focal length f = 400mm, and a grating with a fill factor of 1/2 and period up = 12.7μm, at the input plane two windows of sides aw = bw = 5mm with separation x0 = λf/up = 16.7mm were made. Three polarizers P0, Pπ/4, and Pπ/2 were disposed of such as is schematized in Fig. 1; Pπ/4 was placed on the reference aperture at the input plane, while P0 and Pπ/2 were placed at the image plane matching with the output optical field n = −1 and n = 0, respectively. In order to calibrate the polarimeter, a set of light beams with known SOP were modulated. The polarized entrance beam was created as shown in Fig. 2, in front of the probe window a polarizer, P, and a quarter-wave plate, Qπ/4, were placed to generate any state of polarization; thus J was obtained experimentally.

 figure: Fig. 2

Fig. 2 Arrangement of elements for calibration of the polarimeter: a wave-plate Qπ/4 and a polarizer P.

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The Ronchi ruling of the DACPI is placed outside the Fourier plane in order to generate a carrier frequency long enough to separate the lobules of the interferogram spectrums in the Fourier space, which is a condition that will allow to filter only one lobule, where the information of SOP is contained. The election of filter position is done by observation, so if the carrier frequency is changed the filter position must be changed by hand. That situation does not represent any problem in the experiment, since in practice the carrier frequency remains fixed during the SOP measurements. It is worth saying that this carrier frequency does not need to be known since the method presented here does not need this value to compute σ and α or the Stokes parameters. At the image plane a CCD camera model: Point Grey Grasshopper3 GS3-U3-23S6M-C was employed to capture and keep the interferograms in the computer.

3.1. Calibrating process

In order to calibrate the polarimetric system, a known light beam with linear polarization at π/4 is used as a test beam, note that it represents the same SOP of the reference beam. Under this condition, the phase shift between I−1,x and I0,y must be zero, and for both interferograms, the object phase, the backlight, and the light modulation must be the same. Because both interferograms are recorded in the same capture, as the first step a digital spatial filter is applied on each interferogram in order to separate them, Fig. 3(a). If there is a constant phase-shift between them, πλΔf/up2, due to the Ronchi ruling movement, the filter can be adjusted by displacing it a few pixels until both interferograms match. Next, the fast Fourier transform is calculated for each interferogram, Fig. 3(b); notice that because the carrier frequency the spectrum lobules are separated by the same distance in both images. After that, a digital bandpass filter is applied to one of the spectrum lobes in the Fourier spectrum of I−1x (red circle), in this way the information of the horizontal component is isolated. Meanwhile, the same bandpass filter is applied to the Fourier spectrum of I0y, then, the vertical component is isolated (blue circle). Finally, the inverse fast Fourier transform of both filtered spectrums are calculated, and the SOP is estimated by mean of the Eq. (16) to (21). Note that the same digital spatial filters, both in spatial and frequency domain, must be used for measuring other unknown beams in all subsequent experiments if the Ronchi ruling is not moved again.

 figure: Fig. 3

Fig. 3 Digital spatial filters of the interferograms in (a) spatial domain, and (b) frequency domain.

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3.2. Results

To probe the proposed polarimeter we consider a set of homogeneous polarizations; as the first stage, Qπ/4 was removed from the setup shown in Fig. 2, while P was rotated at the angles φp = π/2, ±π/4, ±π/6 and −π/3 to create six linear SOP experimentally. In the Fig. 4(a) there is a representation of the SOP on Poincare’s sphere, this graphic was built with the Stokes parameters information. In Fig. 4(b) there are the parametric plots of the elliptical SOP drawn up from the Jones vector information.

 figure: Fig. 4

Fig. 4 Representation of the six linear states of polarization on (a) Poincare’s sphere, (b) parametric plots, and (c) values of S1, S2, and S3.

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The theoretical values are shown with black points on the Poincare’s sphere in Fig. 4(a), and with black dashed lines in Fig. 4(b). For clarity, in Fig. 4(c) there are shown the plots of the theoretical values of S1, S2, and S3 in contrast to the experimental measurements. Where the theoretical values are represented by asterisks and color solid lines, while the experimental measurements are represented by color diamonds. The experimental measurements were done by evaluating the interferograms as is indicated in the expressions described by Eq. (16) to (21), then the average of each parameter distribution was obtained, these results are represented with the blue points in Fig. 4(a) and the blue dashed lines in Fig. 4(b).

In the second stage, Qπ/4 was rotated and fixed at φQ = −π/3 while P was rotated at the angles φp = π/2, ±π/3, ±π/6 and 0 to create six elliptical SOP as shown with black points (theoretical values) on the Poincare’s sphere in Fig. 5(a), and with black dashed lines in Fig. 5(b). The magenta lines and magenta points in Fig. 5 respectively show the experimental mean of the measured SOP. For this example, the comparisons between the theoretical and experimental values of Stokes parameters are shown in Fig. 5(c) for each polarizer angle.

 figure: Fig. 5

Fig. 5 Representation of the six eliptical states of polarization on (a) Poincare’s sphere, (b) parametric plots, and (c) Stokes parameters.

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In the third stage, we present a different pair of angle values, (φQ, φp), of Qπ/4 and P. These combinations were (4π/9, 0), (−π/3, π/12), (−π/3, −π/3), (−2π/9, π/4), (−2π/9, −π/6), (0, −π/6). The theoretical SOP are shown with black points, and black dashed lines in Fig. 6 while the green lines and green points show the SOP measured experimentally.

 figure: Fig. 6

Fig. 6 Representation of several states of polarization on (a) Poincare’s sphere, and (b) parametric plots.

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Finally, four sets of experimental measurements of the Stokes parameters, S1, S2 and S3 are presented in Fig. 7. In these measurements φp was varied within [−π/2, π/2], while φQ was kept constant: Fig. 7(a) φQ = 0, Fig. 7(b) φQ = −2π/9, Fig. 7(c) φQ = π/6, and Fig. 7(d) φQ = −4π/9. Notice that all experimental measurement (color diamonds) corresponds to theoretical values which are represented by color asterisks and solid lines. Red color means S1, the blue color means S2 while black color corresponds to S3.

 figure: Fig. 7

Fig. 7 Plots of experimental and theoretical values of S1, S2 and S3 parameters as function of φp. The waveplate is keep on (a) φQ = 0, (b) φQ = −2π/9, (c) φQ = π/6 and (d) φQ = −4π/9.

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4. Conclusion and remarks

In this work, there was proposed a novel one-shot interferometric polarimeter, whose theoretical and experimental demonstrations were successfully done.

This proposal was based on a DACPI, which shows at least three relevant contributions to simplify the interferometric polarimeter. First, the practical and simple experimental method used to introduce an adjustable carrier frequency without the necessity of additional optical elements to create it and the reference beam. In the present method only was necessary to translate the grating axially, placing it outside of the Fourier plane. Second, and most importantly, is the ability to obtain two interferograms in a single shot with mechanical stability; this gives the possibility of measuring in real time any SOP, since only one spectral filter is needed. Third, the theoretical model allows to eliminate: the diffraction constants c0c, c1c; the initial amplitudes of the beams A, Ar; the phase difference ϕ; and the carrier frequency μ0, to estimate the SOP successfully, which are spatial functions that do not need to be known.

To calculate the SOP, the test beam components were compared; the interferograms of the horizontal and vertical components were obtained by placing orthogonal linear polarizers on the interfering output beams with diffraction order n = −1 and n = 0 respectively, as Eq. (11) and Eq. (12) indicates. The information about horizontal and vertical components of the unknown SOP was recovered by using the Fourier analysis. Because both interferograms are replicas of each other, it was only necessary to design a single bandpass filter in the Fourier spectral domain and applied it to both spectra.

The experimental results, shown in Fig. 4 and 6, supports this proposal, where the σ and α values were estimated by Eqs. (16) and (17), and the Stokes parameters were estimated with Eq. (18) to (21). The computation of accuracy is beyond the scope of this paper, but it will be done in future work. Nevertheless, in this point it is important to remark that because in DACPI both beams travel by the same optical components the polarimeter is mechanically stable, robust, tolerate defects in optical components and inhomogeneities in the illumination. However, it could be affected by the bad quality of polarizers P0 and Pπ/2 used to obtain the interferograms, since they could introduce undesirable spatial variations in intensities and phases different in each interferogram, and besides, their bad angular position between them, different from π/2, could be a source of error. The present method needs interference fringes to measure any SOP, therefore the coherence and the polarization between the reference and test beams must be appropriated. Enough coherence beams to produce observable fringes are needed, so it works good for total coherence beams, and for same degree of coherence, but for incoherence beams the method is not able to see interference fringes. On the other hand, parallel SOPs the method works very well, but cuasi-orthogonal SOP also will produce low visibility of the fringes, however this drawback was dropped by the condition given in Eq. (22).

It is worthwhile to comment that some error sources in the calibration process, using a π/4 linear SOP, are the spatial filter position, and the polarizers alignment. α is related to the phase shift between I0y and I−1x interferograms, being crucial that the fringes I0y and I−1x are matched. The visibility difference between interferograms is associated with σ, then, it is essential that the polarizers at the output planes must be orthogonal among them, because in this case, the visibility of both interferograms is the same. Because all this process is calculated for each pixel of the interferogram, we think that the present method is capable of measuring states of polarization of optical fields both homogeneous and inhomogeneous, even those that change over time.

Funding

Vicerrectoria de Investigacion y Estudios de Posgrado of Benemerita Universidad Autonoma de Puebla (100425744-VIEP2018); Consejo Nacional de Ciencia y Tecnologia (257853); Direccion de Investigacion e Innovacion of Universidad de Montemorelos (2017-448).

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18. W.-L. Hsu, G. Myhre, K. Balakrishnan, N. Brock, M. Ibn-Elhaj, and S. Pau, “Full-Stokes imaging polarimeter using an array of elliptical polarizer,” Opt. Express 22(3), 3063–3074 (2014). [CrossRef]   [PubMed]  

19. J. J. Peltzer, K. A. Bachman, J. W. Rose, P. D. Flammer, T. E. Furtak, R. T. Collins, and R. E. Hollingsworth, “Plasmonic micropolarizers for full Stokes vector imaging,” Proc. SPIE 8364, 83640O (2012). [CrossRef]  

20. J. S. Tyo, “Hybrid division of aperture/division of a focal-plane polarimeter for real-time polarization imagery without an instantaneous field-of-view error,” Opt. Lett. 31(20), 2984–2986 (2006). [CrossRef]   [PubMed]  

21. G. Myhre, W.-L. Hsu, A. Peinado, C. LaCasse, N. Brock, R. A. Chipman, and S. Pau, “Liquid crystal polymer full-stokes division of focal plane polarimeter,” Opt. Express , 20(25), 27393–27409 (2012). [CrossRef]   [PubMed]  

22. R. D. Ramkhalawon, T. G. Brown, and M. A. Alonso, “Imaging the polarization of a light field,” Opt. Express 21(4), 4106–4115 (2013). [CrossRef]   [PubMed]  

23. S. Sivankutty, E. R. Andresen, G. Bouwmans, T. G. Brown, M. A. Alonso, and H. Rigneault, “Single-shot polarimetry imaging of multicore fiber,” Opt. Lett. 41(9), 2105–2108 (2016). [CrossRef]   [PubMed]  

24. B. G. Zimmerman, R. Ramkhalawon, M. Alonso, and T. G. Brown, “Pinhole array implementation of star test polarimetry,” Proc. SPIE 8949, 894912 (2014). [CrossRef]  

25. B. G. Zimmerman and T. G. Brown, “Star test image-sampling polarimeter,” Opt. Express 24(20), 23154–23161 (2016). [CrossRef]   [PubMed]  

26. F. Töppel, A. Aiello, C. Marquardt, E. Giacobino, and G. Leuchs, “Classical entanglement in polarization metrology,” New J. Phys. 16, 073019 (2014). [CrossRef]  

27. M. Mujat and A. Dogariu, “Real-time measurement of the polarization transfer function.,” Appl. Opt. 40(1), 34–44 (2001). [CrossRef]  

28. C. Pernechele, E. Giro, and D. Fantinel, “Device for optical linear polarization measurements with a single exposure,” Proc. SPIE 4843, 156–163 (2003). [CrossRef]  

29. J. S. Tyo, D. L. Goldstein, D. B. Chenault, and J. a Shaw, “Review of passive imaging polarimetry for remote sensing applications,” Appl. Opt. 45(22), 5453–5469 (2006). [CrossRef]   [PubMed]  

30. C. Yuan, J. Ma, and S. Feng, “Polarization State Detection by Using Multiplexing Digital Holography,” in Fringe 2013, W. Osten, ed. (Springer, 2014). [CrossRef]  

31. Y. Ohtsuka and K. Oka, “Contour mapping of the spatiotemporal state of polarization of light,” Appl. Opt. 33(13), 2633–2636 (1994). [CrossRef]   [PubMed]  

32. D. N. Naik, R. K. Singh, H. Itou, Y. Miyamoto, and M. Takeda, “State of polarization mapping using a calibrated interferometric polarimeter,” Proc. SPIE 8082, 80821T (2011). [CrossRef]  

33. D. N. Naik, R. K. Singh, H. Itou, M. M. Brundavanam, Y. Miyamoto, and M. Takeda, “Single-shot full-field interferometric polarimeter with an integrated calibration scheme,” Opt. Lett. 37(15), 3282–3284 (2012). [CrossRef]   [PubMed]  

34. L. Han, Z.-J. Cheng, Y. Yang, B.-Y. Wang, Q.-Y. Yue, and C.-S. Guo, “Double-channel angular-multiplexing polarization holography with common-path and off-axis configuration,” Opt. Express 25(18), 21877–21886 (2017). [CrossRef]   [PubMed]  

35. Q. Fan, H. Yang, G. Li, and J. Zhao, “Suppressing carrier removal error in the Fourier transform method for interferogram analysis,” J. Opt. 12, 115401 (2010). [CrossRef]  

36. J. F. Casco-Vasquez, R. Juarez-Salazar, C. Robledo-Sanchez, G. Rodriguez-Zurita, F. Guerrero Sanchez, L. M. Arevalo Aguilar, and C. Meneses-Fabian, “Fourier normalized-fringe analysis by zero-order spectrum suppression using a parameter estimation approach,” Opt. Eng. 52(7), 74109 (2013). [CrossRef]  

37. L.-C. Chen, H.-W. Ho, and X.-L. Nguyen, “Fourier transform profilometry (FTP) using an innovative band-pass filter for accurate 3-D surface reconstruction,” Opt. Lasers Eng. 48(2), 182–190 (2010). [CrossRef]  

38. C. Meneses-Fabian and G. Rodriguez-Zurita, “Carrier fringes in the two-aperture common-path interferometer,” Opt. Lett. 36(5), 642–644 (2011). [CrossRef]   [PubMed]  

39. D. Clarke and J. F. Grainger, Polarized light and optical measurement (Pergamon, 1971).

40. H. G. Berry, G. Gabrielse, and A. E. Livingston, “Measurement of the Stokes parameters of light,” Appl. Opt. 16(12), 3200–3205 (1977). [CrossRef]   [PubMed]  

References

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  1. S.-C. Jiang, X. Xiong, Y.-S. Hu, Y.-H. Hu, G.-B. Ma, R.-W. Peng, C. Sun, and M. Wang, “Controlling the Polarization State of Light with a Dispersion-Free Metastructure,” Phys. Rev. X 4, 021026 (2014).
  2. J. K. Gansel, M. Wegener, S. Burger, and S. Linden, “Gold helix photonic metamaterials: A numerical parameter study,” Opt. Express 18(2), 1059–1069 (2010).
    [Crossref] [PubMed]
  3. D. Goldberg and Z. Weissman, “Compact, high-resolution, self-referenced, optical activity polarimeter for high-pressure liquid chromatography systems,” Appl. Opt. 53(4), 577–587 (2014).
    [Crossref] [PubMed]
  4. P. U. Jepsen, U. Møller, and H. Merbold, “Investigation of aqueous alcohol and sugar solutions with reflection terahertz time-domain spectroscopy,” Opt. Express 15(22), 14717–14737 (2007).
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  5. A. Yamamoto, S. Kodama, A. Matsunaga, K. Hayakawa, Y. Yasui, and M. Kitaoka, “Multi-beam polarized photometric detector for high-performance liquid chromatography,” J. Chromatogr. A. 910, 217–222 (2001).
    [Crossref] [PubMed]
  6. K. H. Chen, Y. C. Chu, and J. H. Chen, “Applying the phase difference property of polarization angle for measuring the concentration of solutions,” Opt. Laser Technol. 44(1), 251–254 (2012).
    [Crossref]
  7. R. Engels, R. Gorski, K. Grigoryev, M. Mikirtychyants, F. Rathmann, H. Seyfarth, H. Stroeher, P. Weiss, L. Kochenda, P. Kravtsov, V. Trofimov, N. Tschernov, A. Vasilyev, M. Vznuzdaev, and H. Schieck, “Measurement of the nuclear polarization of hydrogen and deuterium molecules using a Lamb-shift polarimeter,” Rev. Sci. Instrum. 85(10), 103505 (2014).
    [Crossref] [PubMed]
  8. M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
    [Crossref]
  9. M. J. Swann, L. L. Peel, S. Carrington, and N. J. Freeman, “Dual-polarization interferometry: an analytical technique to measure changes in protein structure in real time, to determine the stoichiometry of binding events, and to differentiate between specific and nonspecific interactions,” Anal. Biochem. 329(2), 190–198 (2004).
    [Crossref] [PubMed]
  10. T. J. Rodigas, K. B. Follette, A. Weinberger, L. Close, and D. C. Hines, “Polarized light imaging of the HD 142527 transition disk with the Gemini Planet Imager: dust around the close-in companion,” Astrophys. J. Lett. 791(2), L37 (2014).
    [Crossref]
  11. K. S. Kawabata, O. Nagae, S. Chiyonobu, H. Tanaka, H. Nakaya, M. Suzuki, Y. Kamata, S. Miyazaki, K. Hiragi, H. Miyamoto, M. Yamanaka, A. Arai, T. Yamashita, M. Uemura, T. Ohsugi, M. Isogai, Y. Ishitobi, and S. Sato, “Wide-field one-shot optical polarimeter: HOWPol,” Proc. SPIE 7014, 70144L (2011).
    [Crossref]
  12. J. P. Balthasar Mueller, K. Leosson, and F. Capasso, “Ultracompact metasurface in-line polarimeter,” Optica 3(1), 42–47 (2016).
    [Crossref]
  13. Y. Han and G. Li, “Coherent optical communication using polarization multiple-input-multiple-output,” Opt. Express 13(19), 7527–7534 (2005).
    [Crossref] [PubMed]
  14. T. Kihara, “Measurement method of Stokes parameters using a quarter-wave plate with phase difference errors,” Appl. Opt. 50(17), 2582–2587 (2011).
    [Crossref] [PubMed]
  15. A. Ambirajan, “Optimum angles for a polarimeter: part II,” Opt. Eng. 34(6), 1656–1658 (1995).
    [Crossref]
  16. M. Pirbhai, D. M. Ryan, G. Richards, and T. J. Gay, “Compact inline optical electron polarimeter,” Rev. Sci. Instrum. 84, 53113 (2013).
    [Crossref]
  17. D. S. Sabatke, M. R. Descour, E. L. Dereniak, W. C. Sweatt, S. A. Kemme, and G. S. Phipps, “Optimization of retardance for a complete Stokes polarimeter,” Opt. Lett. 25(11), 802–804 (2000).
    [Crossref]
  18. W.-L. Hsu, G. Myhre, K. Balakrishnan, N. Brock, M. Ibn-Elhaj, and S. Pau, “Full-Stokes imaging polarimeter using an array of elliptical polarizer,” Opt. Express 22(3), 3063–3074 (2014).
    [Crossref] [PubMed]
  19. J. J. Peltzer, K. A. Bachman, J. W. Rose, P. D. Flammer, T. E. Furtak, R. T. Collins, and R. E. Hollingsworth, “Plasmonic micropolarizers for full Stokes vector imaging,” Proc. SPIE 8364, 83640O (2012).
    [Crossref]
  20. J. S. Tyo, “Hybrid division of aperture/division of a focal-plane polarimeter for real-time polarization imagery without an instantaneous field-of-view error,” Opt. Lett. 31(20), 2984–2986 (2006).
    [Crossref] [PubMed]
  21. G. Myhre, W.-L. Hsu, A. Peinado, C. LaCasse, N. Brock, R. A. Chipman, and S. Pau, “Liquid crystal polymer full-stokes division of focal plane polarimeter,” Opt. Express,  20(25), 27393–27409 (2012).
    [Crossref] [PubMed]
  22. R. D. Ramkhalawon, T. G. Brown, and M. A. Alonso, “Imaging the polarization of a light field,” Opt. Express 21(4), 4106–4115 (2013).
    [Crossref] [PubMed]
  23. S. Sivankutty, E. R. Andresen, G. Bouwmans, T. G. Brown, M. A. Alonso, and H. Rigneault, “Single-shot polarimetry imaging of multicore fiber,” Opt. Lett. 41(9), 2105–2108 (2016).
    [Crossref] [PubMed]
  24. B. G. Zimmerman, R. Ramkhalawon, M. Alonso, and T. G. Brown, “Pinhole array implementation of star test polarimetry,” Proc. SPIE 8949, 894912 (2014).
    [Crossref]
  25. B. G. Zimmerman and T. G. Brown, “Star test image-sampling polarimeter,” Opt. Express 24(20), 23154–23161 (2016).
    [Crossref] [PubMed]
  26. F. Töppel, A. Aiello, C. Marquardt, E. Giacobino, and G. Leuchs, “Classical entanglement in polarization metrology,” New J. Phys. 16, 073019 (2014).
    [Crossref]
  27. M. Mujat and A. Dogariu, “Real-time measurement of the polarization transfer function.,” Appl. Opt. 40(1), 34–44 (2001).
    [Crossref]
  28. C. Pernechele, E. Giro, and D. Fantinel, “Device for optical linear polarization measurements with a single exposure,” Proc. SPIE 4843, 156–163 (2003).
    [Crossref]
  29. J. S. Tyo, D. L. Goldstein, D. B. Chenault, and J. a Shaw, “Review of passive imaging polarimetry for remote sensing applications,” Appl. Opt. 45(22), 5453–5469 (2006).
    [Crossref] [PubMed]
  30. C. Yuan, J. Ma, and S. Feng, “Polarization State Detection by Using Multiplexing Digital Holography,” in Fringe 2013, W. Osten, ed. (Springer, 2014).
    [Crossref]
  31. Y. Ohtsuka and K. Oka, “Contour mapping of the spatiotemporal state of polarization of light,” Appl. Opt. 33(13), 2633–2636 (1994).
    [Crossref] [PubMed]
  32. D. N. Naik, R. K. Singh, H. Itou, Y. Miyamoto, and M. Takeda, “State of polarization mapping using a calibrated interferometric polarimeter,” Proc. SPIE 8082, 80821T (2011).
    [Crossref]
  33. D. N. Naik, R. K. Singh, H. Itou, M. M. Brundavanam, Y. Miyamoto, and M. Takeda, “Single-shot full-field interferometric polarimeter with an integrated calibration scheme,” Opt. Lett. 37(15), 3282–3284 (2012).
    [Crossref] [PubMed]
  34. L. Han, Z.-J. Cheng, Y. Yang, B.-Y. Wang, Q.-Y. Yue, and C.-S. Guo, “Double-channel angular-multiplexing polarization holography with common-path and off-axis configuration,” Opt. Express 25(18), 21877–21886 (2017).
    [Crossref] [PubMed]
  35. Q. Fan, H. Yang, G. Li, and J. Zhao, “Suppressing carrier removal error in the Fourier transform method for interferogram analysis,” J. Opt. 12, 115401 (2010).
    [Crossref]
  36. J. F. Casco-Vasquez, R. Juarez-Salazar, C. Robledo-Sanchez, G. Rodriguez-Zurita, F. Guerrero Sanchez, L. M. Arevalo Aguilar, and C. Meneses-Fabian, “Fourier normalized-fringe analysis by zero-order spectrum suppression using a parameter estimation approach,” Opt. Eng. 52(7), 74109 (2013).
    [Crossref]
  37. L.-C. Chen, H.-W. Ho, and X.-L. Nguyen, “Fourier transform profilometry (FTP) using an innovative band-pass filter for accurate 3-D surface reconstruction,” Opt. Lasers Eng. 48(2), 182–190 (2010).
    [Crossref]
  38. C. Meneses-Fabian and G. Rodriguez-Zurita, “Carrier fringes in the two-aperture common-path interferometer,” Opt. Lett. 36(5), 642–644 (2011).
    [Crossref] [PubMed]
  39. D. Clarke and J. F. Grainger, Polarized light and optical measurement (Pergamon, 1971).
  40. H. G. Berry, G. Gabrielse, and A. E. Livingston, “Measurement of the Stokes parameters of light,” Appl. Opt. 16(12), 3200–3205 (1977).
    [Crossref] [PubMed]

2017 (1)

2016 (3)

2014 (8)

W.-L. Hsu, G. Myhre, K. Balakrishnan, N. Brock, M. Ibn-Elhaj, and S. Pau, “Full-Stokes imaging polarimeter using an array of elliptical polarizer,” Opt. Express 22(3), 3063–3074 (2014).
[Crossref] [PubMed]

S.-C. Jiang, X. Xiong, Y.-S. Hu, Y.-H. Hu, G.-B. Ma, R.-W. Peng, C. Sun, and M. Wang, “Controlling the Polarization State of Light with a Dispersion-Free Metastructure,” Phys. Rev. X 4, 021026 (2014).

D. Goldberg and Z. Weissman, “Compact, high-resolution, self-referenced, optical activity polarimeter for high-pressure liquid chromatography systems,” Appl. Opt. 53(4), 577–587 (2014).
[Crossref] [PubMed]

R. Engels, R. Gorski, K. Grigoryev, M. Mikirtychyants, F. Rathmann, H. Seyfarth, H. Stroeher, P. Weiss, L. Kochenda, P. Kravtsov, V. Trofimov, N. Tschernov, A. Vasilyev, M. Vznuzdaev, and H. Schieck, “Measurement of the nuclear polarization of hydrogen and deuterium molecules using a Lamb-shift polarimeter,” Rev. Sci. Instrum. 85(10), 103505 (2014).
[Crossref] [PubMed]

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

T. J. Rodigas, K. B. Follette, A. Weinberger, L. Close, and D. C. Hines, “Polarized light imaging of the HD 142527 transition disk with the Gemini Planet Imager: dust around the close-in companion,” Astrophys. J. Lett. 791(2), L37 (2014).
[Crossref]

F. Töppel, A. Aiello, C. Marquardt, E. Giacobino, and G. Leuchs, “Classical entanglement in polarization metrology,” New J. Phys. 16, 073019 (2014).
[Crossref]

B. G. Zimmerman, R. Ramkhalawon, M. Alonso, and T. G. Brown, “Pinhole array implementation of star test polarimetry,” Proc. SPIE 8949, 894912 (2014).
[Crossref]

2013 (3)

R. D. Ramkhalawon, T. G. Brown, and M. A. Alonso, “Imaging the polarization of a light field,” Opt. Express 21(4), 4106–4115 (2013).
[Crossref] [PubMed]

J. F. Casco-Vasquez, R. Juarez-Salazar, C. Robledo-Sanchez, G. Rodriguez-Zurita, F. Guerrero Sanchez, L. M. Arevalo Aguilar, and C. Meneses-Fabian, “Fourier normalized-fringe analysis by zero-order spectrum suppression using a parameter estimation approach,” Opt. Eng. 52(7), 74109 (2013).
[Crossref]

M. Pirbhai, D. M. Ryan, G. Richards, and T. J. Gay, “Compact inline optical electron polarimeter,” Rev. Sci. Instrum. 84, 53113 (2013).
[Crossref]

2012 (4)

J. J. Peltzer, K. A. Bachman, J. W. Rose, P. D. Flammer, T. E. Furtak, R. T. Collins, and R. E. Hollingsworth, “Plasmonic micropolarizers for full Stokes vector imaging,” Proc. SPIE 8364, 83640O (2012).
[Crossref]

D. N. Naik, R. K. Singh, H. Itou, M. M. Brundavanam, Y. Miyamoto, and M. Takeda, “Single-shot full-field interferometric polarimeter with an integrated calibration scheme,” Opt. Lett. 37(15), 3282–3284 (2012).
[Crossref] [PubMed]

K. H. Chen, Y. C. Chu, and J. H. Chen, “Applying the phase difference property of polarization angle for measuring the concentration of solutions,” Opt. Laser Technol. 44(1), 251–254 (2012).
[Crossref]

G. Myhre, W.-L. Hsu, A. Peinado, C. LaCasse, N. Brock, R. A. Chipman, and S. Pau, “Liquid crystal polymer full-stokes division of focal plane polarimeter,” Opt. Express,  20(25), 27393–27409 (2012).
[Crossref] [PubMed]

2011 (4)

D. N. Naik, R. K. Singh, H. Itou, Y. Miyamoto, and M. Takeda, “State of polarization mapping using a calibrated interferometric polarimeter,” Proc. SPIE 8082, 80821T (2011).
[Crossref]

T. Kihara, “Measurement method of Stokes parameters using a quarter-wave plate with phase difference errors,” Appl. Opt. 50(17), 2582–2587 (2011).
[Crossref] [PubMed]

K. S. Kawabata, O. Nagae, S. Chiyonobu, H. Tanaka, H. Nakaya, M. Suzuki, Y. Kamata, S. Miyazaki, K. Hiragi, H. Miyamoto, M. Yamanaka, A. Arai, T. Yamashita, M. Uemura, T. Ohsugi, M. Isogai, Y. Ishitobi, and S. Sato, “Wide-field one-shot optical polarimeter: HOWPol,” Proc. SPIE 7014, 70144L (2011).
[Crossref]

C. Meneses-Fabian and G. Rodriguez-Zurita, “Carrier fringes in the two-aperture common-path interferometer,” Opt. Lett. 36(5), 642–644 (2011).
[Crossref] [PubMed]

2010 (3)

J. K. Gansel, M. Wegener, S. Burger, and S. Linden, “Gold helix photonic metamaterials: A numerical parameter study,” Opt. Express 18(2), 1059–1069 (2010).
[Crossref] [PubMed]

L.-C. Chen, H.-W. Ho, and X.-L. Nguyen, “Fourier transform profilometry (FTP) using an innovative band-pass filter for accurate 3-D surface reconstruction,” Opt. Lasers Eng. 48(2), 182–190 (2010).
[Crossref]

Q. Fan, H. Yang, G. Li, and J. Zhao, “Suppressing carrier removal error in the Fourier transform method for interferogram analysis,” J. Opt. 12, 115401 (2010).
[Crossref]

2007 (1)

2006 (2)

2005 (1)

2004 (1)

M. J. Swann, L. L. Peel, S. Carrington, and N. J. Freeman, “Dual-polarization interferometry: an analytical technique to measure changes in protein structure in real time, to determine the stoichiometry of binding events, and to differentiate between specific and nonspecific interactions,” Anal. Biochem. 329(2), 190–198 (2004).
[Crossref] [PubMed]

2003 (1)

C. Pernechele, E. Giro, and D. Fantinel, “Device for optical linear polarization measurements with a single exposure,” Proc. SPIE 4843, 156–163 (2003).
[Crossref]

2001 (2)

M. Mujat and A. Dogariu, “Real-time measurement of the polarization transfer function.,” Appl. Opt. 40(1), 34–44 (2001).
[Crossref]

A. Yamamoto, S. Kodama, A. Matsunaga, K. Hayakawa, Y. Yasui, and M. Kitaoka, “Multi-beam polarized photometric detector for high-performance liquid chromatography,” J. Chromatogr. A. 910, 217–222 (2001).
[Crossref] [PubMed]

2000 (1)

1995 (1)

A. Ambirajan, “Optimum angles for a polarimeter: part II,” Opt. Eng. 34(6), 1656–1658 (1995).
[Crossref]

1994 (1)

1977 (1)

Aguar-Bartolomé, P.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Aiello, A.

F. Töppel, A. Aiello, C. Marquardt, E. Giacobino, and G. Leuchs, “Classical entanglement in polarization metrology,” New J. Phys. 16, 073019 (2014).
[Crossref]

Akasoy, L. K.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Alonso, M.

B. G. Zimmerman, R. Ramkhalawon, M. Alonso, and T. G. Brown, “Pinhole array implementation of star test polarimetry,” Proc. SPIE 8949, 894912 (2014).
[Crossref]

Alonso, M. A.

Ambirajan, A.

A. Ambirajan, “Optimum angles for a polarimeter: part II,” Opt. Eng. 34(6), 1656–1658 (1995).
[Crossref]

Andresen, E. R.

Annand, J. R. M.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Arai, A.

K. S. Kawabata, O. Nagae, S. Chiyonobu, H. Tanaka, H. Nakaya, M. Suzuki, Y. Kamata, S. Miyazaki, K. Hiragi, H. Miyamoto, M. Yamanaka, A. Arai, T. Yamashita, M. Uemura, T. Ohsugi, M. Isogai, Y. Ishitobi, and S. Sato, “Wide-field one-shot optical polarimeter: HOWPol,” Proc. SPIE 7014, 70144L (2011).
[Crossref]

Arends, H. J.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Arevalo Aguilar, L. M.

J. F. Casco-Vasquez, R. Juarez-Salazar, C. Robledo-Sanchez, G. Rodriguez-Zurita, F. Guerrero Sanchez, L. M. Arevalo Aguilar, and C. Meneses-Fabian, “Fourier normalized-fringe analysis by zero-order spectrum suppression using a parameter estimation approach,” Opt. Eng. 52(7), 74109 (2013).
[Crossref]

Bachman, K. A.

J. J. Peltzer, K. A. Bachman, J. W. Rose, P. D. Flammer, T. E. Furtak, R. T. Collins, and R. E. Hollingsworth, “Plasmonic micropolarizers for full Stokes vector imaging,” Proc. SPIE 8364, 83640O (2012).
[Crossref]

Balakrishnan, K.

Balthasar Mueller, J. P.

Bantawa, K.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Beck, R.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Bekrenev, V. S.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Berghäuser, H.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Berry, H. G.

Bouwmans, G.

Braghieri, A.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Branford, D.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Briscoe, W. J.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Brock, N.

Brown, T. G.

Brudvik, J.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Brundavanam, M. M.

Burger, S.

Capasso, F.

Carrington, S.

M. J. Swann, L. L. Peel, S. Carrington, and N. J. Freeman, “Dual-polarization interferometry: an analytical technique to measure changes in protein structure in real time, to determine the stoichiometry of binding events, and to differentiate between specific and nonspecific interactions,” Anal. Biochem. 329(2), 190–198 (2004).
[Crossref] [PubMed]

Casco-Vasquez, J. F.

J. F. Casco-Vasquez, R. Juarez-Salazar, C. Robledo-Sanchez, G. Rodriguez-Zurita, F. Guerrero Sanchez, L. M. Arevalo Aguilar, and C. Meneses-Fabian, “Fourier normalized-fringe analysis by zero-order spectrum suppression using a parameter estimation approach,” Opt. Eng. 52(7), 74109 (2013).
[Crossref]

Chen, J. H.

K. H. Chen, Y. C. Chu, and J. H. Chen, “Applying the phase difference property of polarization angle for measuring the concentration of solutions,” Opt. Laser Technol. 44(1), 251–254 (2012).
[Crossref]

Chen, K. H.

K. H. Chen, Y. C. Chu, and J. H. Chen, “Applying the phase difference property of polarization angle for measuring the concentration of solutions,” Opt. Laser Technol. 44(1), 251–254 (2012).
[Crossref]

Chen, L.-C.

L.-C. Chen, H.-W. Ho, and X.-L. Nguyen, “Fourier transform profilometry (FTP) using an innovative band-pass filter for accurate 3-D surface reconstruction,” Opt. Lasers Eng. 48(2), 182–190 (2010).
[Crossref]

Chenault, D. B.

Cheng, Z.-J.

Cherepnya, S.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
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T. J. Rodigas, K. B. Follette, A. Weinberger, L. Close, and D. C. Hines, “Polarized light imaging of the HD 142527 transition disk with the Gemini Planet Imager: dust around the close-in companion,” Astrophys. J. Lett. 791(2), L37 (2014).
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Codling, R. F. B.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
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J. J. Peltzer, K. A. Bachman, J. W. Rose, P. D. Flammer, T. E. Furtak, R. T. Collins, and R. E. Hollingsworth, “Plasmonic micropolarizers for full Stokes vector imaging,” Proc. SPIE 8364, 83640O (2012).
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Demissie, B. T.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
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Dereniak, E. L.

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Dogariu, A.

Downie, E. J.

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Drexler, P.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
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C. Pernechele, E. Giro, and D. Fantinel, “Device for optical linear polarization measurements with a single exposure,” Proc. SPIE 4843, 156–163 (2003).
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M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
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J. J. Peltzer, K. A. Bachman, J. W. Rose, P. D. Flammer, T. E. Furtak, R. T. Collins, and R. E. Hollingsworth, “Plasmonic micropolarizers for full Stokes vector imaging,” Proc. SPIE 8364, 83640O (2012).
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T. J. Rodigas, K. B. Follette, A. Weinberger, L. Close, and D. C. Hines, “Polarized light imaging of the HD 142527 transition disk with the Gemini Planet Imager: dust around the close-in companion,” Astrophys. J. Lett. 791(2), L37 (2014).
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Freehart, B.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
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J. J. Peltzer, K. A. Bachman, J. W. Rose, P. D. Flammer, T. E. Furtak, R. T. Collins, and R. E. Hollingsworth, “Plasmonic micropolarizers for full Stokes vector imaging,” Proc. SPIE 8364, 83640O (2012).
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Gabrielse, G.

Gansel, J. K.

Gay, T. J.

M. Pirbhai, D. M. Ryan, G. Richards, and T. J. Gay, “Compact inline optical electron polarimeter,” Rev. Sci. Instrum. 84, 53113 (2013).
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Giro, E.

C. Pernechele, E. Giro, and D. Fantinel, “Device for optical linear polarization measurements with a single exposure,” Proc. SPIE 4843, 156–163 (2003).
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Glazier, D. I.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
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Goldberg, D.

Goldstein, D. L.

Gorski, R.

R. Engels, R. Gorski, K. Grigoryev, M. Mikirtychyants, F. Rathmann, H. Seyfarth, H. Stroeher, P. Weiss, L. Kochenda, P. Kravtsov, V. Trofimov, N. Tschernov, A. Vasilyev, M. Vznuzdaev, and H. Schieck, “Measurement of the nuclear polarization of hydrogen and deuterium molecules using a Lamb-shift polarimeter,” Rev. Sci. Instrum. 85(10), 103505 (2014).
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D. Clarke and J. F. Grainger, Polarized light and optical measurement (Pergamon, 1971).

Gregor, R.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
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R. Engels, R. Gorski, K. Grigoryev, M. Mikirtychyants, F. Rathmann, H. Seyfarth, H. Stroeher, P. Weiss, L. Kochenda, P. Kravtsov, V. Trofimov, N. Tschernov, A. Vasilyev, M. Vznuzdaev, and H. Schieck, “Measurement of the nuclear polarization of hydrogen and deuterium molecules using a Lamb-shift polarimeter,” Rev. Sci. Instrum. 85(10), 103505 (2014).
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Guerrero Sanchez, F.

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Guo, C.-S.

Hamilton, D.

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Han, Y.

Hayakawa, K.

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Heid, E.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
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Hines, D. C.

T. J. Rodigas, K. B. Follette, A. Weinberger, L. Close, and D. C. Hines, “Polarized light imaging of the HD 142527 transition disk with the Gemini Planet Imager: dust around the close-in companion,” Astrophys. J. Lett. 791(2), L37 (2014).
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Hiragi, K.

K. S. Kawabata, O. Nagae, S. Chiyonobu, H. Tanaka, H. Nakaya, M. Suzuki, Y. Kamata, S. Miyazaki, K. Hiragi, H. Miyamoto, M. Yamanaka, A. Arai, T. Yamashita, M. Uemura, T. Ohsugi, M. Isogai, Y. Ishitobi, and S. Sato, “Wide-field one-shot optical polarimeter: HOWPol,” Proc. SPIE 7014, 70144L (2011).
[Crossref]

Ho, H.-W.

L.-C. Chen, H.-W. Ho, and X.-L. Nguyen, “Fourier transform profilometry (FTP) using an innovative band-pass filter for accurate 3-D surface reconstruction,” Opt. Lasers Eng. 48(2), 182–190 (2010).
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Hollingsworth, R. E.

J. J. Peltzer, K. A. Bachman, J. W. Rose, P. D. Flammer, T. E. Furtak, R. T. Collins, and R. E. Hollingsworth, “Plasmonic micropolarizers for full Stokes vector imaging,” Proc. SPIE 8364, 83640O (2012).
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Hornidge, D.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
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Hsu, W.-L.

Hu, Y.-H.

S.-C. Jiang, X. Xiong, Y.-S. Hu, Y.-H. Hu, G.-B. Ma, R.-W. Peng, C. Sun, and M. Wang, “Controlling the Polarization State of Light with a Dispersion-Free Metastructure,” Phys. Rev. X 4, 021026 (2014).

Hu, Y.-S.

S.-C. Jiang, X. Xiong, Y.-S. Hu, Y.-H. Hu, G.-B. Ma, R.-W. Peng, C. Sun, and M. Wang, “Controlling the Polarization State of Light with a Dispersion-Free Metastructure,” Phys. Rev. X 4, 021026 (2014).

Ibn-Elhaj, M.

Ishitobi, Y.

K. S. Kawabata, O. Nagae, S. Chiyonobu, H. Tanaka, H. Nakaya, M. Suzuki, Y. Kamata, S. Miyazaki, K. Hiragi, H. Miyamoto, M. Yamanaka, A. Arai, T. Yamashita, M. Uemura, T. Ohsugi, M. Isogai, Y. Ishitobi, and S. Sato, “Wide-field one-shot optical polarimeter: HOWPol,” Proc. SPIE 7014, 70144L (2011).
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Isogai, M.

K. S. Kawabata, O. Nagae, S. Chiyonobu, H. Tanaka, H. Nakaya, M. Suzuki, Y. Kamata, S. Miyazaki, K. Hiragi, H. Miyamoto, M. Yamanaka, A. Arai, T. Yamashita, M. Uemura, T. Ohsugi, M. Isogai, Y. Ishitobi, and S. Sato, “Wide-field one-shot optical polarimeter: HOWPol,” Proc. SPIE 7014, 70144L (2011).
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Itou, H.

D. N. Naik, R. K. Singh, H. Itou, M. M. Brundavanam, Y. Miyamoto, and M. Takeda, “Single-shot full-field interferometric polarimeter with an integrated calibration scheme,” Opt. Lett. 37(15), 3282–3284 (2012).
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D. N. Naik, R. K. Singh, H. Itou, Y. Miyamoto, and M. Takeda, “State of polarization mapping using a calibrated interferometric polarimeter,” Proc. SPIE 8082, 80821T (2011).
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Jaegle, I.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
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Jahn, O.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Jepsen, P. U.

Jiang, S.-C.

S.-C. Jiang, X. Xiong, Y.-S. Hu, Y.-H. Hu, G.-B. Ma, R.-W. Peng, C. Sun, and M. Wang, “Controlling the Polarization State of Light with a Dispersion-Free Metastructure,” Phys. Rev. X 4, 021026 (2014).

Juarez-Salazar, R.

J. F. Casco-Vasquez, R. Juarez-Salazar, C. Robledo-Sanchez, G. Rodriguez-Zurita, F. Guerrero Sanchez, L. M. Arevalo Aguilar, and C. Meneses-Fabian, “Fourier normalized-fringe analysis by zero-order spectrum suppression using a parameter estimation approach,” Opt. Eng. 52(7), 74109 (2013).
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Jude, T. C.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
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Kamata, Y.

K. S. Kawabata, O. Nagae, S. Chiyonobu, H. Tanaka, H. Nakaya, M. Suzuki, Y. Kamata, S. Miyazaki, K. Hiragi, H. Miyamoto, M. Yamanaka, A. Arai, T. Yamashita, M. Uemura, T. Ohsugi, M. Isogai, Y. Ishitobi, and S. Sato, “Wide-field one-shot optical polarimeter: HOWPol,” Proc. SPIE 7014, 70144L (2011).
[Crossref]

Kashevarov, V. L.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
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Kawabata, K. S.

K. S. Kawabata, O. Nagae, S. Chiyonobu, H. Tanaka, H. Nakaya, M. Suzuki, Y. Kamata, S. Miyazaki, K. Hiragi, H. Miyamoto, M. Yamanaka, A. Arai, T. Yamashita, M. Uemura, T. Ohsugi, M. Isogai, Y. Ishitobi, and S. Sato, “Wide-field one-shot optical polarimeter: HOWPol,” Proc. SPIE 7014, 70144L (2011).
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Kemme, S. A.

Keshelashvili, I.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
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Kihara, T.

Kitaoka, M.

A. Yamamoto, S. Kodama, A. Matsunaga, K. Hayakawa, Y. Yasui, and M. Kitaoka, “Multi-beam polarized photometric detector for high-performance liquid chromatography,” J. Chromatogr. A. 910, 217–222 (2001).
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Kochenda, L.

R. Engels, R. Gorski, K. Grigoryev, M. Mikirtychyants, F. Rathmann, H. Seyfarth, H. Stroeher, P. Weiss, L. Kochenda, P. Kravtsov, V. Trofimov, N. Tschernov, A. Vasilyev, M. Vznuzdaev, and H. Schieck, “Measurement of the nuclear polarization of hydrogen and deuterium molecules using a Lamb-shift polarimeter,” Rev. Sci. Instrum. 85(10), 103505 (2014).
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Kodama, S.

A. Yamamoto, S. Kodama, A. Matsunaga, K. Hayakawa, Y. Yasui, and M. Kitaoka, “Multi-beam polarized photometric detector for high-performance liquid chromatography,” J. Chromatogr. A. 910, 217–222 (2001).
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Kondratiev, R.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Korolija, M.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Kotulla, M.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Koulbardis, A. A.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
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Kravtsov, P.

R. Engels, R. Gorski, K. Grigoryev, M. Mikirtychyants, F. Rathmann, H. Seyfarth, H. Stroeher, P. Weiss, L. Kochenda, P. Kravtsov, V. Trofimov, N. Tschernov, A. Vasilyev, M. Vznuzdaev, and H. Schieck, “Measurement of the nuclear polarization of hydrogen and deuterium molecules using a Lamb-shift polarimeter,” Rev. Sci. Instrum. 85(10), 103505 (2014).
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Kruglov, S. P.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Krusche, B.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
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LaCasse, C.

Leosson, K.

Leuchs, G.

F. Töppel, A. Aiello, C. Marquardt, E. Giacobino, and G. Leuchs, “Classical entanglement in polarization metrology,” New J. Phys. 16, 073019 (2014).
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Q. Fan, H. Yang, G. Li, and J. Zhao, “Suppressing carrier removal error in the Fourier transform method for interferogram analysis,” J. Opt. 12, 115401 (2010).
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Y. Han and G. Li, “Coherent optical communication using polarization multiple-input-multiple-output,” Opt. Express 13(19), 7527–7534 (2005).
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Linden, S.

Lisin, V.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
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Livingston, A. E.

Livingston, K.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
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Ma, G.-B.

S.-C. Jiang, X. Xiong, Y.-S. Hu, Y.-H. Hu, G.-B. Ma, R.-W. Peng, C. Sun, and M. Wang, “Controlling the Polarization State of Light with a Dispersion-Free Metastructure,” Phys. Rev. X 4, 021026 (2014).

Ma, J.

C. Yuan, J. Ma, and S. Feng, “Polarization State Detection by Using Multiplexing Digital Holography,” in Fringe 2013, W. Osten, ed. (Springer, 2014).
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MacGregor, I. J. D.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Maghrbi, Y.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Manley, D. M.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Marinides, Z.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Marquardt, C.

F. Töppel, A. Aiello, C. Marquardt, E. Giacobino, and G. Leuchs, “Classical entanglement in polarization metrology,” New J. Phys. 16, 073019 (2014).
[Crossref]

Martinez, M.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
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Matsunaga, A.

A. Yamamoto, S. Kodama, A. Matsunaga, K. Hayakawa, Y. Yasui, and M. Kitaoka, “Multi-beam polarized photometric detector for high-performance liquid chromatography,” J. Chromatogr. A. 910, 217–222 (2001).
[Crossref] [PubMed]

McGeorge, J. C.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

McKinnon, B.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

McNicoll, E. F.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Mekterovic, D.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
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Meneses-Fabian, C.

J. F. Casco-Vasquez, R. Juarez-Salazar, C. Robledo-Sanchez, G. Rodriguez-Zurita, F. Guerrero Sanchez, L. M. Arevalo Aguilar, and C. Meneses-Fabian, “Fourier normalized-fringe analysis by zero-order spectrum suppression using a parameter estimation approach,” Opt. Eng. 52(7), 74109 (2013).
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C. Meneses-Fabian and G. Rodriguez-Zurita, “Carrier fringes in the two-aperture common-path interferometer,” Opt. Lett. 36(5), 642–644 (2011).
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Merbold, H.

Metag, V.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
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Micanovic, S.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Middleton, D. G.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
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Mikirtychyants, M.

R. Engels, R. Gorski, K. Grigoryev, M. Mikirtychyants, F. Rathmann, H. Seyfarth, H. Stroeher, P. Weiss, L. Kochenda, P. Kravtsov, V. Trofimov, N. Tschernov, A. Vasilyev, M. Vznuzdaev, and H. Schieck, “Measurement of the nuclear polarization of hydrogen and deuterium molecules using a Lamb-shift polarimeter,” Rev. Sci. Instrum. 85(10), 103505 (2014).
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Miyamoto, H.

K. S. Kawabata, O. Nagae, S. Chiyonobu, H. Tanaka, H. Nakaya, M. Suzuki, Y. Kamata, S. Miyazaki, K. Hiragi, H. Miyamoto, M. Yamanaka, A. Arai, T. Yamashita, M. Uemura, T. Ohsugi, M. Isogai, Y. Ishitobi, and S. Sato, “Wide-field one-shot optical polarimeter: HOWPol,” Proc. SPIE 7014, 70144L (2011).
[Crossref]

Miyamoto, Y.

D. N. Naik, R. K. Singh, H. Itou, M. M. Brundavanam, Y. Miyamoto, and M. Takeda, “Single-shot full-field interferometric polarimeter with an integrated calibration scheme,” Opt. Lett. 37(15), 3282–3284 (2012).
[Crossref] [PubMed]

D. N. Naik, R. K. Singh, H. Itou, Y. Miyamoto, and M. Takeda, “State of polarization mapping using a calibrated interferometric polarimeter,” Proc. SPIE 8082, 80821T (2011).
[Crossref]

Miyazaki, S.

K. S. Kawabata, O. Nagae, S. Chiyonobu, H. Tanaka, H. Nakaya, M. Suzuki, Y. Kamata, S. Miyazaki, K. Hiragi, H. Miyamoto, M. Yamanaka, A. Arai, T. Yamashita, M. Uemura, T. Ohsugi, M. Isogai, Y. Ishitobi, and S. Sato, “Wide-field one-shot optical polarimeter: HOWPol,” Proc. SPIE 7014, 70144L (2011).
[Crossref]

Møller, U.

Mujat, M.

Mushkarenkov, A.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Myhre, G.

Nagae, O.

K. S. Kawabata, O. Nagae, S. Chiyonobu, H. Tanaka, H. Nakaya, M. Suzuki, Y. Kamata, S. Miyazaki, K. Hiragi, H. Miyamoto, M. Yamanaka, A. Arai, T. Yamashita, M. Uemura, T. Ohsugi, M. Isogai, Y. Ishitobi, and S. Sato, “Wide-field one-shot optical polarimeter: HOWPol,” Proc. SPIE 7014, 70144L (2011).
[Crossref]

Naik, D. N.

D. N. Naik, R. K. Singh, H. Itou, M. M. Brundavanam, Y. Miyamoto, and M. Takeda, “Single-shot full-field interferometric polarimeter with an integrated calibration scheme,” Opt. Lett. 37(15), 3282–3284 (2012).
[Crossref] [PubMed]

D. N. Naik, R. K. Singh, H. Itou, Y. Miyamoto, and M. Takeda, “State of polarization mapping using a calibrated interferometric polarimeter,” Proc. SPIE 8082, 80821T (2011).
[Crossref]

Nakaya, H.

K. S. Kawabata, O. Nagae, S. Chiyonobu, H. Tanaka, H. Nakaya, M. Suzuki, Y. Kamata, S. Miyazaki, K. Hiragi, H. Miyamoto, M. Yamanaka, A. Arai, T. Yamashita, M. Uemura, T. Ohsugi, M. Isogai, Y. Ishitobi, and S. Sato, “Wide-field one-shot optical polarimeter: HOWPol,” Proc. SPIE 7014, 70144L (2011).
[Crossref]

Nefkens, B. M. K.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Nguyen, X.-L.

L.-C. Chen, H.-W. Ho, and X.-L. Nguyen, “Fourier transform profilometry (FTP) using an innovative band-pass filter for accurate 3-D surface reconstruction,” Opt. Lasers Eng. 48(2), 182–190 (2010).
[Crossref]

Nikolaev, A.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Novotny, R.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Ohsugi, T.

K. S. Kawabata, O. Nagae, S. Chiyonobu, H. Tanaka, H. Nakaya, M. Suzuki, Y. Kamata, S. Miyazaki, K. Hiragi, H. Miyamoto, M. Yamanaka, A. Arai, T. Yamashita, M. Uemura, T. Ohsugi, M. Isogai, Y. Ishitobi, and S. Sato, “Wide-field one-shot optical polarimeter: HOWPol,” Proc. SPIE 7014, 70144L (2011).
[Crossref]

Ohtsuka, Y.

Oka, K.

Ostrick, M.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Otte, P. B.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Oussena, B.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Pau, S.

Pedroni, P.

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M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
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Rathmann, F.

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Robinson, J.

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Rosner, G.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
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Sato, S.

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Shaw, J. a

Sikora, M. H.

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Sivankutty, S.

Sober, D. I.

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Starostin, A.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Strakovsky, I. I.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Stroeher, H.

R. Engels, R. Gorski, K. Grigoryev, M. Mikirtychyants, F. Rathmann, H. Seyfarth, H. Stroeher, P. Weiss, L. Kochenda, P. Kravtsov, V. Trofimov, N. Tschernov, A. Vasilyev, M. Vznuzdaev, and H. Schieck, “Measurement of the nuclear polarization of hydrogen and deuterium molecules using a Lamb-shift polarimeter,” Rev. Sci. Instrum. 85(10), 103505 (2014).
[Crossref] [PubMed]

Suarez, I. M.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Sun, C.

S.-C. Jiang, X. Xiong, Y.-S. Hu, Y.-H. Hu, G.-B. Ma, R.-W. Peng, C. Sun, and M. Wang, “Controlling the Polarization State of Light with a Dispersion-Free Metastructure,” Phys. Rev. X 4, 021026 (2014).

Supek, I.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Suzuki, M.

K. S. Kawabata, O. Nagae, S. Chiyonobu, H. Tanaka, H. Nakaya, M. Suzuki, Y. Kamata, S. Miyazaki, K. Hiragi, H. Miyamoto, M. Yamanaka, A. Arai, T. Yamashita, M. Uemura, T. Ohsugi, M. Isogai, Y. Ishitobi, and S. Sato, “Wide-field one-shot optical polarimeter: HOWPol,” Proc. SPIE 7014, 70144L (2011).
[Crossref]

Swann, M. J.

M. J. Swann, L. L. Peel, S. Carrington, and N. J. Freeman, “Dual-polarization interferometry: an analytical technique to measure changes in protein structure in real time, to determine the stoichiometry of binding events, and to differentiate between specific and nonspecific interactions,” Anal. Biochem. 329(2), 190–198 (2004).
[Crossref] [PubMed]

Sweatt, W. C.

Takeda, M.

D. N. Naik, R. K. Singh, H. Itou, M. M. Brundavanam, Y. Miyamoto, and M. Takeda, “Single-shot full-field interferometric polarimeter with an integrated calibration scheme,” Opt. Lett. 37(15), 3282–3284 (2012).
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D. N. Naik, R. K. Singh, H. Itou, Y. Miyamoto, and M. Takeda, “State of polarization mapping using a calibrated interferometric polarimeter,” Proc. SPIE 8082, 80821T (2011).
[Crossref]

Tanaka, H.

K. S. Kawabata, O. Nagae, S. Chiyonobu, H. Tanaka, H. Nakaya, M. Suzuki, Y. Kamata, S. Miyazaki, K. Hiragi, H. Miyamoto, M. Yamanaka, A. Arai, T. Yamashita, M. Uemura, T. Ohsugi, M. Isogai, Y. Ishitobi, and S. Sato, “Wide-field one-shot optical polarimeter: HOWPol,” Proc. SPIE 7014, 70144L (2011).
[Crossref]

Thiel, M.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Thomas, A.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Töppel, F.

F. Töppel, A. Aiello, C. Marquardt, E. Giacobino, and G. Leuchs, “Classical entanglement in polarization metrology,” New J. Phys. 16, 073019 (2014).
[Crossref]

Trofimov, V.

R. Engels, R. Gorski, K. Grigoryev, M. Mikirtychyants, F. Rathmann, H. Seyfarth, H. Stroeher, P. Weiss, L. Kochenda, P. Kravtsov, V. Trofimov, N. Tschernov, A. Vasilyev, M. Vznuzdaev, and H. Schieck, “Measurement of the nuclear polarization of hydrogen and deuterium molecules using a Lamb-shift polarimeter,” Rev. Sci. Instrum. 85(10), 103505 (2014).
[Crossref] [PubMed]

Tschernov, N.

R. Engels, R. Gorski, K. Grigoryev, M. Mikirtychyants, F. Rathmann, H. Seyfarth, H. Stroeher, P. Weiss, L. Kochenda, P. Kravtsov, V. Trofimov, N. Tschernov, A. Vasilyev, M. Vznuzdaev, and H. Schieck, “Measurement of the nuclear polarization of hydrogen and deuterium molecules using a Lamb-shift polarimeter,” Rev. Sci. Instrum. 85(10), 103505 (2014).
[Crossref] [PubMed]

Tyo, J. S.

Uemura, M.

K. S. Kawabata, O. Nagae, S. Chiyonobu, H. Tanaka, H. Nakaya, M. Suzuki, Y. Kamata, S. Miyazaki, K. Hiragi, H. Miyamoto, M. Yamanaka, A. Arai, T. Yamashita, M. Uemura, T. Ohsugi, M. Isogai, Y. Ishitobi, and S. Sato, “Wide-field one-shot optical polarimeter: HOWPol,” Proc. SPIE 7014, 70144L (2011).
[Crossref]

Unverzagt, M.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Vasilyev, A.

R. Engels, R. Gorski, K. Grigoryev, M. Mikirtychyants, F. Rathmann, H. Seyfarth, H. Stroeher, P. Weiss, L. Kochenda, P. Kravtsov, V. Trofimov, N. Tschernov, A. Vasilyev, M. Vznuzdaev, and H. Schieck, “Measurement of the nuclear polarization of hydrogen and deuterium molecules using a Lamb-shift polarimeter,” Rev. Sci. Instrum. 85(10), 103505 (2014).
[Crossref] [PubMed]

Vznuzdaev, M.

R. Engels, R. Gorski, K. Grigoryev, M. Mikirtychyants, F. Rathmann, H. Seyfarth, H. Stroeher, P. Weiss, L. Kochenda, P. Kravtsov, V. Trofimov, N. Tschernov, A. Vasilyev, M. Vznuzdaev, and H. Schieck, “Measurement of the nuclear polarization of hydrogen and deuterium molecules using a Lamb-shift polarimeter,” Rev. Sci. Instrum. 85(10), 103505 (2014).
[Crossref] [PubMed]

Wang, B.-Y.

Wang, M.

S.-C. Jiang, X. Xiong, Y.-S. Hu, Y.-H. Hu, G.-B. Ma, R.-W. Peng, C. Sun, and M. Wang, “Controlling the Polarization State of Light with a Dispersion-Free Metastructure,” Phys. Rev. X 4, 021026 (2014).

Watts, D. P.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Wegener, M.

Weinberger, A.

T. J. Rodigas, K. B. Follette, A. Weinberger, L. Close, and D. C. Hines, “Polarized light imaging of the HD 142527 transition disk with the Gemini Planet Imager: dust around the close-in companion,” Astrophys. J. Lett. 791(2), L37 (2014).
[Crossref]

Weiss, P.

R. Engels, R. Gorski, K. Grigoryev, M. Mikirtychyants, F. Rathmann, H. Seyfarth, H. Stroeher, P. Weiss, L. Kochenda, P. Kravtsov, V. Trofimov, N. Tschernov, A. Vasilyev, M. Vznuzdaev, and H. Schieck, “Measurement of the nuclear polarization of hydrogen and deuterium molecules using a Lamb-shift polarimeter,” Rev. Sci. Instrum. 85(10), 103505 (2014).
[Crossref] [PubMed]

Weissman, Z.

Werthmüller, D.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Workman, R. L.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Xiong, X.

S.-C. Jiang, X. Xiong, Y.-S. Hu, Y.-H. Hu, G.-B. Ma, R.-W. Peng, C. Sun, and M. Wang, “Controlling the Polarization State of Light with a Dispersion-Free Metastructure,” Phys. Rev. X 4, 021026 (2014).

Yamamoto, A.

A. Yamamoto, S. Kodama, A. Matsunaga, K. Hayakawa, Y. Yasui, and M. Kitaoka, “Multi-beam polarized photometric detector for high-performance liquid chromatography,” J. Chromatogr. A. 910, 217–222 (2001).
[Crossref] [PubMed]

Yamanaka, M.

K. S. Kawabata, O. Nagae, S. Chiyonobu, H. Tanaka, H. Nakaya, M. Suzuki, Y. Kamata, S. Miyazaki, K. Hiragi, H. Miyamoto, M. Yamanaka, A. Arai, T. Yamashita, M. Uemura, T. Ohsugi, M. Isogai, Y. Ishitobi, and S. Sato, “Wide-field one-shot optical polarimeter: HOWPol,” Proc. SPIE 7014, 70144L (2011).
[Crossref]

Yamashita, T.

K. S. Kawabata, O. Nagae, S. Chiyonobu, H. Tanaka, H. Nakaya, M. Suzuki, Y. Kamata, S. Miyazaki, K. Hiragi, H. Miyamoto, M. Yamanaka, A. Arai, T. Yamashita, M. Uemura, T. Ohsugi, M. Isogai, Y. Ishitobi, and S. Sato, “Wide-field one-shot optical polarimeter: HOWPol,” Proc. SPIE 7014, 70144L (2011).
[Crossref]

Yang, H.

Q. Fan, H. Yang, G. Li, and J. Zhao, “Suppressing carrier removal error in the Fourier transform method for interferogram analysis,” J. Opt. 12, 115401 (2010).
[Crossref]

Yang, Y.

Yasui, Y.

A. Yamamoto, S. Kodama, A. Matsunaga, K. Hayakawa, Y. Yasui, and M. Kitaoka, “Multi-beam polarized photometric detector for high-performance liquid chromatography,” J. Chromatogr. A. 910, 217–222 (2001).
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Yuan, C.

C. Yuan, J. Ma, and S. Feng, “Polarization State Detection by Using Multiplexing Digital Holography,” in Fringe 2013, W. Osten, ed. (Springer, 2014).
[Crossref]

Yue, Q.-Y.

Zamboni, I.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
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Zehr, F.

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
[Crossref]

Zhao, J.

Q. Fan, H. Yang, G. Li, and J. Zhao, “Suppressing carrier removal error in the Fourier transform method for interferogram analysis,” J. Opt. 12, 115401 (2010).
[Crossref]

Zimmerman, B. G.

B. G. Zimmerman and T. G. Brown, “Star test image-sampling polarimeter,” Opt. Express 24(20), 23154–23161 (2016).
[Crossref] [PubMed]

B. G. Zimmerman, R. Ramkhalawon, M. Alonso, and T. G. Brown, “Pinhole array implementation of star test polarimetry,” Proc. SPIE 8949, 894912 (2014).
[Crossref]

Anal. Biochem. (1)

M. J. Swann, L. L. Peel, S. Carrington, and N. J. Freeman, “Dual-polarization interferometry: an analytical technique to measure changes in protein structure in real time, to determine the stoichiometry of binding events, and to differentiate between specific and nonspecific interactions,” Anal. Biochem. 329(2), 190–198 (2004).
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Appl. Opt. (6)

Astrophys. J. Lett. (1)

T. J. Rodigas, K. B. Follette, A. Weinberger, L. Close, and D. C. Hines, “Polarized light imaging of the HD 142527 transition disk with the Gemini Planet Imager: dust around the close-in companion,” Astrophys. J. Lett. 791(2), L37 (2014).
[Crossref]

J. Chromatogr. A. (1)

A. Yamamoto, S. Kodama, A. Matsunaga, K. Hayakawa, Y. Yasui, and M. Kitaoka, “Multi-beam polarized photometric detector for high-performance liquid chromatography,” J. Chromatogr. A. 910, 217–222 (2001).
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J. Opt. (1)

Q. Fan, H. Yang, G. Li, and J. Zhao, “Suppressing carrier removal error in the Fourier transform method for interferogram analysis,” J. Opt. 12, 115401 (2010).
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New J. Phys. (1)

F. Töppel, A. Aiello, C. Marquardt, E. Giacobino, and G. Leuchs, “Classical entanglement in polarization metrology,” New J. Phys. 16, 073019 (2014).
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Opt. Eng. (2)

J. F. Casco-Vasquez, R. Juarez-Salazar, C. Robledo-Sanchez, G. Rodriguez-Zurita, F. Guerrero Sanchez, L. M. Arevalo Aguilar, and C. Meneses-Fabian, “Fourier normalized-fringe analysis by zero-order spectrum suppression using a parameter estimation approach,” Opt. Eng. 52(7), 74109 (2013).
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A. Ambirajan, “Optimum angles for a polarimeter: part II,” Opt. Eng. 34(6), 1656–1658 (1995).
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Opt. Express (8)

Y. Han and G. Li, “Coherent optical communication using polarization multiple-input-multiple-output,” Opt. Express 13(19), 7527–7534 (2005).
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W.-L. Hsu, G. Myhre, K. Balakrishnan, N. Brock, M. Ibn-Elhaj, and S. Pau, “Full-Stokes imaging polarimeter using an array of elliptical polarizer,” Opt. Express 22(3), 3063–3074 (2014).
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P. U. Jepsen, U. Møller, and H. Merbold, “Investigation of aqueous alcohol and sugar solutions with reflection terahertz time-domain spectroscopy,” Opt. Express 15(22), 14717–14737 (2007).
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J. K. Gansel, M. Wegener, S. Burger, and S. Linden, “Gold helix photonic metamaterials: A numerical parameter study,” Opt. Express 18(2), 1059–1069 (2010).
[Crossref] [PubMed]

B. G. Zimmerman and T. G. Brown, “Star test image-sampling polarimeter,” Opt. Express 24(20), 23154–23161 (2016).
[Crossref] [PubMed]

G. Myhre, W.-L. Hsu, A. Peinado, C. LaCasse, N. Brock, R. A. Chipman, and S. Pau, “Liquid crystal polymer full-stokes division of focal plane polarimeter,” Opt. Express,  20(25), 27393–27409 (2012).
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R. D. Ramkhalawon, T. G. Brown, and M. A. Alonso, “Imaging the polarization of a light field,” Opt. Express 21(4), 4106–4115 (2013).
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L. Han, Z.-J. Cheng, Y. Yang, B.-Y. Wang, Q.-Y. Yue, and C.-S. Guo, “Double-channel angular-multiplexing polarization holography with common-path and off-axis configuration,” Opt. Express 25(18), 21877–21886 (2017).
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Opt. Laser Technol. (1)

K. H. Chen, Y. C. Chu, and J. H. Chen, “Applying the phase difference property of polarization angle for measuring the concentration of solutions,” Opt. Laser Technol. 44(1), 251–254 (2012).
[Crossref]

Opt. Lasers Eng. (1)

L.-C. Chen, H.-W. Ho, and X.-L. Nguyen, “Fourier transform profilometry (FTP) using an innovative band-pass filter for accurate 3-D surface reconstruction,” Opt. Lasers Eng. 48(2), 182–190 (2010).
[Crossref]

Opt. Lett. (5)

Optica (1)

Phys. Rev. Lett. (1)

M. H. Sikora, D. P. Watts, D. I. Glazier, P. Aguar-Bartolomé, L. K. Akasoy, J. R. M. Annand, H. J. Arends, K. Bantawa, R. Beck, V. S. Bekrenev, H. Berghäuser, A. Braghieri, D. Branford, W. J. Briscoe, J. Brudvik, S. Cherepnya, R. F. B. Codling, B. T. Demissie, E. J. Downie, P. Drexler, L. V. Fil’kov, B. Freehart, R. Gregor, D. Hamilton, E. Heid, D. Hornidge, I. Jaegle, O. Jahn, T. C. Jude, V. L. Kashevarov, I. Keshelashvili, R. Kondratiev, M. Korolija, M. Kotulla, A. A. Koulbardis, S. P. Kruglov, B. Krusche, V. Lisin, K. Livingston, I. J. D. MacGregor, Y. Maghrbi, D. M. Manley, Z. Marinides, M. Martinez, J. C. McGeorge, B. McKinnon, E. F. McNicoll, D. Mekterovic, V. Metag, S. Micanovic, D. G. Middleton, A. Mushkarenkov, B. M. K. Nefkens, A. Nikolaev, R. Novotny, M. Ostrick, P. B. Otte, B. Oussena, P. Pedroni, F. Pheron, A. Polonski, S. Prakhov, J. Robinson, G. Rosner, T. Rostomyan, S. Schumann, D. I. Sober, A. Starostin, I. I. Strakovsky, I. M. Suarez, I. Supek, M. Thiel, A. Thomas, M. Unverzagt, D. Werthmüller, R. L. Workman, I. Zamboni, and F. Zehr, “Measurement of the  1H(γ→,p→)π0 Reaction Using a Novel Nucleon Spin Polarimeter,” Phys. Rev. Lett. 112(2), 22501 (2014).
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Phys. Rev. X (1)

S.-C. Jiang, X. Xiong, Y.-S. Hu, Y.-H. Hu, G.-B. Ma, R.-W. Peng, C. Sun, and M. Wang, “Controlling the Polarization State of Light with a Dispersion-Free Metastructure,” Phys. Rev. X 4, 021026 (2014).

Proc. SPIE (5)

K. S. Kawabata, O. Nagae, S. Chiyonobu, H. Tanaka, H. Nakaya, M. Suzuki, Y. Kamata, S. Miyazaki, K. Hiragi, H. Miyamoto, M. Yamanaka, A. Arai, T. Yamashita, M. Uemura, T. Ohsugi, M. Isogai, Y. Ishitobi, and S. Sato, “Wide-field one-shot optical polarimeter: HOWPol,” Proc. SPIE 7014, 70144L (2011).
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J. J. Peltzer, K. A. Bachman, J. W. Rose, P. D. Flammer, T. E. Furtak, R. T. Collins, and R. E. Hollingsworth, “Plasmonic micropolarizers for full Stokes vector imaging,” Proc. SPIE 8364, 83640O (2012).
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C. Pernechele, E. Giro, and D. Fantinel, “Device for optical linear polarization measurements with a single exposure,” Proc. SPIE 4843, 156–163 (2003).
[Crossref]

B. G. Zimmerman, R. Ramkhalawon, M. Alonso, and T. G. Brown, “Pinhole array implementation of star test polarimetry,” Proc. SPIE 8949, 894912 (2014).
[Crossref]

D. N. Naik, R. K. Singh, H. Itou, Y. Miyamoto, and M. Takeda, “State of polarization mapping using a calibrated interferometric polarimeter,” Proc. SPIE 8082, 80821T (2011).
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Rev. Sci. Instrum. (2)

M. Pirbhai, D. M. Ryan, G. Richards, and T. J. Gay, “Compact inline optical electron polarimeter,” Rev. Sci. Instrum. 84, 53113 (2013).
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R. Engels, R. Gorski, K. Grigoryev, M. Mikirtychyants, F. Rathmann, H. Seyfarth, H. Stroeher, P. Weiss, L. Kochenda, P. Kravtsov, V. Trofimov, N. Tschernov, A. Vasilyev, M. Vznuzdaev, and H. Schieck, “Measurement of the nuclear polarization of hydrogen and deuterium molecules using a Lamb-shift polarimeter,” Rev. Sci. Instrum. 85(10), 103505 (2014).
[Crossref] [PubMed]

Other (2)

C. Yuan, J. Ma, and S. Feng, “Polarization State Detection by Using Multiplexing Digital Holography,” in Fringe 2013, W. Osten, ed. (Springer, 2014).
[Crossref]

D. Clarke and J. F. Grainger, Polarized light and optical measurement (Pergamon, 1971).

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Figures (7)

Fig. 1
Fig. 1 Schema of polarimeter based in a DACPI.
Fig. 2
Fig. 2 Arrangement of elements for calibration of the polarimeter: a wave-plate Q π / 4 and a polarizer P.
Fig. 3
Fig. 3 Digital spatial filters of the interferograms in (a) spatial domain, and (b) frequency domain.
Fig. 4
Fig. 4 Representation of the six linear states of polarization on (a) Poincare’s sphere, (b) parametric plots, and (c) values of S1, S2, and S3.
Fig. 5
Fig. 5 Representation of the six eliptical states of polarization on (a) Poincare’s sphere, (b) parametric plots, and (c) Stokes parameters.
Fig. 6
Fig. 6 Representation of several states of polarization on (a) Poincare’s sphere, and (b) parametric plots.
Fig. 7
Fig. 7 Plots of experimental and theoretical values of S1, S2 and S3 parameters as function of φp. The waveplate is keep on (a) φQ = 0, (b) φQ = −2π/9, (c) φQ = π/6 and (d) φQ = −4π/9.

Equations (22)

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E ( x , y , z , t ) = A ( x , y ) exp [ i ( k z ω t + α x ) ] = A ( x , y ) J exp [ i ( k z ω t + α x ) ] ,
A r = A r J r exp ( i α r ) ,
J r = 1 2 1 / 2 ( i + j ) ,
A r 2 = 1 2 A 2 ( 1 + sin 2 σ cos α ) ,
tan α r = sin α sin σ cos σ + cos α sin σ .
t A ( x , y ) = w ( x + 1 2 x 0 , y ) A J exp ( i ϕ p ) + w ( x 1 2 x 0 , y ) A r J r exp [ i ( ϕ r + α r ) ] ,
t ( x , y ) = 1 2 n = sinc ( 1 2 n ) t A ( x + λ f u p n , y ) exp { i k 2 f Δ f f [ ( λ f u p n ) 2 2 λ f u p n x ] } ,
t ( x , y ) = n = w [ ( n + 1 2 ) x 0 x , y ] { c n c A J exp ( i ϕ p ) + c n + 1 c A r J r exp [ i ( ϕ r + α r ) ] } ,
t 1 x = c 1 c cos σ A exp ( i ϕ p ) + 1 2 1 / 2 c 0 c A r exp [ i ( ϕ r + α r ) ] ,
t 0 y = c 0 c sin σ A exp ( i ϕ p ) exp ( i α ) + 1 2 1 / 2 c 1 c A r exp [ i ( ϕ r + α r ) ] .
I 1 x = | c 1 c | A 2 cos 2 σ + 1 2 | c 0 c | 2 A r 2 + 2 1 / 2 | c 1 c | | c 0 c | A A r cos σ cos ( ϕ + π λ Δ f u p 2 2 π μ 0 x ) ,
I 0 y = | c 0 c | 2 A 2 sin 2 σ + 1 2 | c 1 c | 2 A r 2 + 2 1 / 2 | c 0 c | | c 1 c | A A r sin σ cos ( ϕ π λ Δ f u p 2 2 π μ 0 x + α ) ,
d x = 2 1 / 2 2 c 0 c 1 A A r cos σ exp [ i ( ϕ 2 π μ 0 x ) ] ,
d y = 2 1 / 2 2 c 0 c 1 A A r sin σ exp [ i ( ϕ 2 π μ 0 x + α ) ] ,
d = d y d x = tan σ exp ( i α ) ,
tan σ = ( Re { d } 2 + Im { d } 2 ) 1 / 2 ,
tan α = Im { d } Re { d } .
S 0 = A 0 2 = d x 2 + d y 2 ,
S 1 = cos ( 2 σ ) = d x 2 d y 2 S 0 ,
S 2 = sin ( 2 σ ) cos α = 2 Re { d x d y * } S 0 ,
S 3 = sin ( 2 σ ) sin α = 2 Im { d x d y * } S 0 ,
sin ( 2 σ ) cos α = 1 ,

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