C. W. Li, Z. W. Liu, H. M. Xie, and D. Wu, “Novel 3D SEM Moiré method for micro height measurement,” Opt. Express 21(13), 15734–15746 (2013).

[Crossref]
[PubMed]

Z. W. Liu, X. F. Huang, and H. M. Xie, “A novel orthogonal transmission-virtual grating method and its applications in measuring micro 3-D shape of deformed liquid surface,” Opt. Lasers Eng. 51(2), 167–171 (2013).

[Crossref]

Y. C. Zhao, X. F. Huang, Z. W. Liu, H. M. Xie, and G. He, “Transmission-virtual grating method and its applications in measuring deformed liquid surface,” Chin. J. Lasers 39(9), 0908001 (2012).

[Crossref]

Z. W. Liu, X. F. Huang, H. M. Xie, X. H. Lou, and H. Du, “The artificial periodic lattice phase analysis method applied to deformation evaluation of TiNi shape memory alloy in micro scale,” Meas. Sci. Technol. 22(12), 125702 (2011).

[Crossref]

Z. W. Liu and J. X. Gao, “Deformation-pattern-based digital speckle correlation for coefficient of thermal expansion evaluation of film,” Opt. Express 19(18), 17469–17479 (2011).

[Crossref]
[PubMed]

L. Huang, C. S. Ng, and A. K. Asundi, “Dynamic three-dimensional sensing for specular surface with monoscopic fringe reflectometry,” Opt. Express 19(13), 12809–12814 (2011).

[Crossref]
[PubMed]

S. Zhang, “Recent progresses on real-time 3D shape measurement using digital fringe projection techniques,” Opt. Lasers Eng. 48(2), 149–158 (2010).

[Crossref]

M. J. Dai and Y. Wang, “Fringe extrapolation technique based on Fourier transform for interferogram analysis,” Opt. Lett. 34(7), 956–958 (2009).

[Crossref]
[PubMed]

Z. W. Liu, H. M. Xie, C. Z. Gu, and Y. G. Meng, “The digital geometric phase technique applied to the deformation evaluation of MEMS devices,” J. Micromech. Microeng. 19(1), 015012 (2009).

[Crossref]

Y. Tang, X. Y. Su, F. Wu, and Y. K. Liu, “A novel phase measuring deflectometry for aspheric mirror test,” Opt. Express 17(22), 19778–19784 (2009).

[Crossref]
[PubMed]

A. Skydan, M. J. Labor, and D. R. Burton, “3D shape measurement of automotive glass by using a fringe reflection technique,” Mater. Sci. Technol. 18, 106–114 (2007).

X. Q. Feng, X. F. Gao, Z. N. Wu, L. Jiang, and Q. S. Zheng, “Superior Water Repellency of Water Strider Legs with Hierarchical Structures: Experiments and Analysis,” Langmuir 23(9), 4892–4896 (2007).

[Crossref]
[PubMed]

Q. C. Zhang and X. Y. Su, “High-speed optical measurement for the drumhead vibration,” Opt. Express 13(8), 3110–3116 (2005).

[Crossref]
[PubMed]

Z. W. Liu, H. M. Xie, D. N. Fang, F. L. Dai, Q. K. Xue, H. Liu, and J. F. Jia, “Residual strain around a step edge of artificial Al/Si (111)-7×7 nanocluster,” Appl. Phys. Lett. 87(20), 201908 (2005).

[Crossref]

T. Bothe, W. S. Li, C. V. Kopylow, and W. Jüptner, “High-resolution 3D shape measurement on specular surfaces by fringe reflection,” Proc. SPIE 5457, 411–422 (2004).

[Crossref]

X. F. Gao and L. Jiang, “Biophysics: water-repellent legs of water striders,” Nature 432(7013), 36 (2004).

[Crossref]
[PubMed]

D. L. Hu, B. Chan, and J. W. M. Bush, “The hydrodynamics of water strider locomotion,” Nature 424(6949), 663–666 (2003).

[Crossref]
[PubMed]

M. J. Hÿtch, J. L. Putaux, and J. M. Pénisson, “Measurement of the displacement field of dislocations to 0.03 A by electron microscopy,” Nature 423(6937), 270–273 (2003).

[Crossref]
[PubMed]

R. Ibrahim, V. Pilipchuk, and T. Ikeda, “Recent advances in liquid sloshing dynamics,” Appl. Mech. Rev. 54(2), 133–199 (2001).

[Crossref]

F. Chen, G. M. Brown, and M. Song, “Overview of three-dimensional shape measurement using optical methods,” Opt. Eng. 39(1), 10–22 (2000).

[Crossref]

L. D. Peterson, E. F. Crawley, and R. J. Hansman, “Nonlinear fluid slosh coupled to the dynamics of a spacecraft,” AIAA 27(9), 1230–1240 (1989).

[Crossref]

T. Bothe, W. S. Li, C. V. Kopylow, and W. Jüptner, “High-resolution 3D shape measurement on specular surfaces by fringe reflection,” Proc. SPIE 5457, 411–422 (2004).

[Crossref]

F. Chen, G. M. Brown, and M. Song, “Overview of three-dimensional shape measurement using optical methods,” Opt. Eng. 39(1), 10–22 (2000).

[Crossref]

A. Skydan, M. J. Labor, and D. R. Burton, “3D shape measurement of automotive glass by using a fringe reflection technique,” Mater. Sci. Technol. 18, 106–114 (2007).

D. L. Hu, B. Chan, and J. W. M. Bush, “The hydrodynamics of water strider locomotion,” Nature 424(6949), 663–666 (2003).

[Crossref]
[PubMed]

D. L. Hu, B. Chan, and J. W. M. Bush, “The hydrodynamics of water strider locomotion,” Nature 424(6949), 663–666 (2003).

[Crossref]
[PubMed]

F. Chen, G. M. Brown, and M. Song, “Overview of three-dimensional shape measurement using optical methods,” Opt. Eng. 39(1), 10–22 (2000).

[Crossref]

L. D. Peterson, E. F. Crawley, and R. J. Hansman, “Nonlinear fluid slosh coupled to the dynamics of a spacecraft,” AIAA 27(9), 1230–1240 (1989).

[Crossref]

Z. W. Liu, H. M. Xie, D. N. Fang, F. L. Dai, Q. K. Xue, H. Liu, and J. F. Jia, “Residual strain around a step edge of artificial Al/Si (111)-7×7 nanocluster,” Appl. Phys. Lett. 87(20), 201908 (2005).

[Crossref]

Z. W. Liu, X. F. Huang, H. M. Xie, X. H. Lou, and H. Du, “The artificial periodic lattice phase analysis method applied to deformation evaluation of TiNi shape memory alloy in micro scale,” Meas. Sci. Technol. 22(12), 125702 (2011).

[Crossref]

Z. W. Liu, H. M. Xie, D. N. Fang, F. L. Dai, Q. K. Xue, H. Liu, and J. F. Jia, “Residual strain around a step edge of artificial Al/Si (111)-7×7 nanocluster,” Appl. Phys. Lett. 87(20), 201908 (2005).

[Crossref]

X. Q. Feng, X. F. Gao, Z. N. Wu, L. Jiang, and Q. S. Zheng, “Superior Water Repellency of Water Strider Legs with Hierarchical Structures: Experiments and Analysis,” Langmuir 23(9), 4892–4896 (2007).

[Crossref]
[PubMed]

X. Q. Feng, X. F. Gao, Z. N. Wu, L. Jiang, and Q. S. Zheng, “Superior Water Repellency of Water Strider Legs with Hierarchical Structures: Experiments and Analysis,” Langmuir 23(9), 4892–4896 (2007).

[Crossref]
[PubMed]

X. F. Gao and L. Jiang, “Biophysics: water-repellent legs of water striders,” Nature 432(7013), 36 (2004).

[Crossref]
[PubMed]

Z. W. Liu, H. M. Xie, C. Z. Gu, and Y. G. Meng, “The digital geometric phase technique applied to the deformation evaluation of MEMS devices,” J. Micromech. Microeng. 19(1), 015012 (2009).

[Crossref]

L. D. Peterson, E. F. Crawley, and R. J. Hansman, “Nonlinear fluid slosh coupled to the dynamics of a spacecraft,” AIAA 27(9), 1230–1240 (1989).

[Crossref]

Y. C. Zhao, X. F. Huang, Z. W. Liu, H. M. Xie, and G. He, “Transmission-virtual grating method and its applications in measuring deformed liquid surface,” Chin. J. Lasers 39(9), 0908001 (2012).

[Crossref]

D. L. Hu, B. Chan, and J. W. M. Bush, “The hydrodynamics of water strider locomotion,” Nature 424(6949), 663–666 (2003).

[Crossref]
[PubMed]

Z. W. Liu, X. F. Huang, and H. M. Xie, “A novel orthogonal transmission-virtual grating method and its applications in measuring micro 3-D shape of deformed liquid surface,” Opt. Lasers Eng. 51(2), 167–171 (2013).

[Crossref]

Y. C. Zhao, X. F. Huang, Z. W. Liu, H. M. Xie, and G. He, “Transmission-virtual grating method and its applications in measuring deformed liquid surface,” Chin. J. Lasers 39(9), 0908001 (2012).

[Crossref]

Z. W. Liu, X. F. Huang, H. M. Xie, X. H. Lou, and H. Du, “The artificial periodic lattice phase analysis method applied to deformation evaluation of TiNi shape memory alloy in micro scale,” Meas. Sci. Technol. 22(12), 125702 (2011).

[Crossref]

M. J. Hÿtch, J. L. Putaux, and J. M. Pénisson, “Measurement of the displacement field of dislocations to 0.03 A by electron microscopy,” Nature 423(6937), 270–273 (2003).

[Crossref]
[PubMed]

R. Ibrahim, V. Pilipchuk, and T. Ikeda, “Recent advances in liquid sloshing dynamics,” Appl. Mech. Rev. 54(2), 133–199 (2001).

[Crossref]

R. Ibrahim, V. Pilipchuk, and T. Ikeda, “Recent advances in liquid sloshing dynamics,” Appl. Mech. Rev. 54(2), 133–199 (2001).

[Crossref]

Z. W. Liu, H. M. Xie, D. N. Fang, F. L. Dai, Q. K. Xue, H. Liu, and J. F. Jia, “Residual strain around a step edge of artificial Al/Si (111)-7×7 nanocluster,” Appl. Phys. Lett. 87(20), 201908 (2005).

[Crossref]

X. Q. Feng, X. F. Gao, Z. N. Wu, L. Jiang, and Q. S. Zheng, “Superior Water Repellency of Water Strider Legs with Hierarchical Structures: Experiments and Analysis,” Langmuir 23(9), 4892–4896 (2007).

[Crossref]
[PubMed]

X. F. Gao and L. Jiang, “Biophysics: water-repellent legs of water striders,” Nature 432(7013), 36 (2004).

[Crossref]
[PubMed]

T. Bothe, W. S. Li, C. V. Kopylow, and W. Jüptner, “High-resolution 3D shape measurement on specular surfaces by fringe reflection,” Proc. SPIE 5457, 411–422 (2004).

[Crossref]

T. Bothe, W. S. Li, C. V. Kopylow, and W. Jüptner, “High-resolution 3D shape measurement on specular surfaces by fringe reflection,” Proc. SPIE 5457, 411–422 (2004).

[Crossref]

A. Skydan, M. J. Labor, and D. R. Burton, “3D shape measurement of automotive glass by using a fringe reflection technique,” Mater. Sci. Technol. 18, 106–114 (2007).

T. Bothe, W. S. Li, C. V. Kopylow, and W. Jüptner, “High-resolution 3D shape measurement on specular surfaces by fringe reflection,” Proc. SPIE 5457, 411–422 (2004).

[Crossref]

D. M. Liu and P. Z. Lin, “A numerical study of three-dimensional liquid sloshing in tanks,” J. Comput. Phys. 227(8), 3921–3939 (2008).

[Crossref]

D. M. Liu and P. Z. Lin, “A numerical study of three-dimensional liquid sloshing in tanks,” J. Comput. Phys. 227(8), 3921–3939 (2008).

[Crossref]

Z. W. Liu, H. M. Xie, D. N. Fang, F. L. Dai, Q. K. Xue, H. Liu, and J. F. Jia, “Residual strain around a step edge of artificial Al/Si (111)-7×7 nanocluster,” Appl. Phys. Lett. 87(20), 201908 (2005).

[Crossref]

Y. Tang, X. Y. Su, F. Wu, and Y. K. Liu, “A novel phase measuring deflectometry for aspheric mirror test,” Opt. Express 17(22), 19778–19784 (2009).

[Crossref]
[PubMed]

Y. Tang, X. Y. Su, Y. K. Liu, and H. L. Jing, “3D shape measurement of the aspheric mirror by advanced phase measuring deflectometry,” Opt. Express 16(19), 15090–15096 (2008).

[Crossref]
[PubMed]

Z. W. Liu, X. F. Huang, and H. M. Xie, “A novel orthogonal transmission-virtual grating method and its applications in measuring micro 3-D shape of deformed liquid surface,” Opt. Lasers Eng. 51(2), 167–171 (2013).

[Crossref]

C. W. Li, Z. W. Liu, H. M. Xie, and D. Wu, “Novel 3D SEM Moiré method for micro height measurement,” Opt. Express 21(13), 15734–15746 (2013).

[Crossref]
[PubMed]

Y. C. Zhao, X. F. Huang, Z. W. Liu, H. M. Xie, and G. He, “Transmission-virtual grating method and its applications in measuring deformed liquid surface,” Chin. J. Lasers 39(9), 0908001 (2012).

[Crossref]

Z. W. Liu, X. F. Huang, H. M. Xie, X. H. Lou, and H. Du, “The artificial periodic lattice phase analysis method applied to deformation evaluation of TiNi shape memory alloy in micro scale,” Meas. Sci. Technol. 22(12), 125702 (2011).

[Crossref]

Z. W. Liu and J. X. Gao, “Deformation-pattern-based digital speckle correlation for coefficient of thermal expansion evaluation of film,” Opt. Express 19(18), 17469–17479 (2011).

[Crossref]
[PubMed]

Z. W. Liu, H. M. Xie, C. Z. Gu, and Y. G. Meng, “The digital geometric phase technique applied to the deformation evaluation of MEMS devices,” J. Micromech. Microeng. 19(1), 015012 (2009).

[Crossref]

Z. W. Liu, H. M. Xie, D. N. Fang, F. L. Dai, Q. K. Xue, H. Liu, and J. F. Jia, “Residual strain around a step edge of artificial Al/Si (111)-7×7 nanocluster,” Appl. Phys. Lett. 87(20), 201908 (2005).

[Crossref]

Z. W. Liu, X. F. Huang, H. M. Xie, X. H. Lou, and H. Du, “The artificial periodic lattice phase analysis method applied to deformation evaluation of TiNi shape memory alloy in micro scale,” Meas. Sci. Technol. 22(12), 125702 (2011).

[Crossref]

Z. W. Liu, H. M. Xie, C. Z. Gu, and Y. G. Meng, “The digital geometric phase technique applied to the deformation evaluation of MEMS devices,” J. Micromech. Microeng. 19(1), 015012 (2009).

[Crossref]

M. J. Hÿtch, J. L. Putaux, and J. M. Pénisson, “Measurement of the displacement field of dislocations to 0.03 A by electron microscopy,” Nature 423(6937), 270–273 (2003).

[Crossref]
[PubMed]

L. D. Peterson, E. F. Crawley, and R. J. Hansman, “Nonlinear fluid slosh coupled to the dynamics of a spacecraft,” AIAA 27(9), 1230–1240 (1989).

[Crossref]

R. Ibrahim, V. Pilipchuk, and T. Ikeda, “Recent advances in liquid sloshing dynamics,” Appl. Mech. Rev. 54(2), 133–199 (2001).

[Crossref]

M. J. Hÿtch, J. L. Putaux, and J. M. Pénisson, “Measurement of the displacement field of dislocations to 0.03 A by electron microscopy,” Nature 423(6937), 270–273 (2003).

[Crossref]
[PubMed]

A. Skydan, M. J. Labor, and D. R. Burton, “3D shape measurement of automotive glass by using a fringe reflection technique,” Mater. Sci. Technol. 18, 106–114 (2007).

F. Chen, G. M. Brown, and M. Song, “Overview of three-dimensional shape measurement using optical methods,” Opt. Eng. 39(1), 10–22 (2000).

[Crossref]

Y. Tang, X. Y. Su, F. Wu, and Y. K. Liu, “A novel phase measuring deflectometry for aspheric mirror test,” Opt. Express 17(22), 19778–19784 (2009).

[Crossref]
[PubMed]

Y. Tang, X. Y. Su, Y. K. Liu, and H. L. Jing, “3D shape measurement of the aspheric mirror by advanced phase measuring deflectometry,” Opt. Express 16(19), 15090–15096 (2008).

[Crossref]
[PubMed]

Q. C. Zhang and X. Y. Su, “High-speed optical measurement for the drumhead vibration,” Opt. Express 13(8), 3110–3116 (2005).

[Crossref]
[PubMed]

Y. Tang, X. Y. Su, F. Wu, and Y. K. Liu, “A novel phase measuring deflectometry for aspheric mirror test,” Opt. Express 17(22), 19778–19784 (2009).

[Crossref]
[PubMed]

Y. Tang, X. Y. Su, Y. K. Liu, and H. L. Jing, “3D shape measurement of the aspheric mirror by advanced phase measuring deflectometry,” Opt. Express 16(19), 15090–15096 (2008).

[Crossref]
[PubMed]

X. Q. Feng, X. F. Gao, Z. N. Wu, L. Jiang, and Q. S. Zheng, “Superior Water Repellency of Water Strider Legs with Hierarchical Structures: Experiments and Analysis,” Langmuir 23(9), 4892–4896 (2007).

[Crossref]
[PubMed]

Z. W. Liu, X. F. Huang, and H. M. Xie, “A novel orthogonal transmission-virtual grating method and its applications in measuring micro 3-D shape of deformed liquid surface,” Opt. Lasers Eng. 51(2), 167–171 (2013).

[Crossref]

C. W. Li, Z. W. Liu, H. M. Xie, and D. Wu, “Novel 3D SEM Moiré method for micro height measurement,” Opt. Express 21(13), 15734–15746 (2013).

[Crossref]
[PubMed]

Y. C. Zhao, X. F. Huang, Z. W. Liu, H. M. Xie, and G. He, “Transmission-virtual grating method and its applications in measuring deformed liquid surface,” Chin. J. Lasers 39(9), 0908001 (2012).

[Crossref]

Z. W. Liu, X. F. Huang, H. M. Xie, X. H. Lou, and H. Du, “The artificial periodic lattice phase analysis method applied to deformation evaluation of TiNi shape memory alloy in micro scale,” Meas. Sci. Technol. 22(12), 125702 (2011).

[Crossref]

Z. W. Liu, H. M. Xie, C. Z. Gu, and Y. G. Meng, “The digital geometric phase technique applied to the deformation evaluation of MEMS devices,” J. Micromech. Microeng. 19(1), 015012 (2009).

[Crossref]

Z. W. Liu, H. M. Xie, D. N. Fang, F. L. Dai, Q. K. Xue, H. Liu, and J. F. Jia, “Residual strain around a step edge of artificial Al/Si (111)-7×7 nanocluster,” Appl. Phys. Lett. 87(20), 201908 (2005).

[Crossref]

Z. W. Liu, H. M. Xie, D. N. Fang, F. L. Dai, Q. K. Xue, H. Liu, and J. F. Jia, “Residual strain around a step edge of artificial Al/Si (111)-7×7 nanocluster,” Appl. Phys. Lett. 87(20), 201908 (2005).

[Crossref]

S. Zhang, “Recent progresses on real-time 3D shape measurement using digital fringe projection techniques,” Opt. Lasers Eng. 48(2), 149–158 (2010).

[Crossref]

Y. C. Zhao, X. F. Huang, Z. W. Liu, H. M. Xie, and G. He, “Transmission-virtual grating method and its applications in measuring deformed liquid surface,” Chin. J. Lasers 39(9), 0908001 (2012).

[Crossref]

X. Q. Feng, X. F. Gao, Z. N. Wu, L. Jiang, and Q. S. Zheng, “Superior Water Repellency of Water Strider Legs with Hierarchical Structures: Experiments and Analysis,” Langmuir 23(9), 4892–4896 (2007).

[Crossref]
[PubMed]

L. D. Peterson, E. F. Crawley, and R. J. Hansman, “Nonlinear fluid slosh coupled to the dynamics of a spacecraft,” AIAA 27(9), 1230–1240 (1989).

[Crossref]

R. Ibrahim, V. Pilipchuk, and T. Ikeda, “Recent advances in liquid sloshing dynamics,” Appl. Mech. Rev. 54(2), 133–199 (2001).

[Crossref]

Z. W. Liu, H. M. Xie, D. N. Fang, F. L. Dai, Q. K. Xue, H. Liu, and J. F. Jia, “Residual strain around a step edge of artificial Al/Si (111)-7×7 nanocluster,” Appl. Phys. Lett. 87(20), 201908 (2005).

[Crossref]

Y. C. Zhao, X. F. Huang, Z. W. Liu, H. M. Xie, and G. He, “Transmission-virtual grating method and its applications in measuring deformed liquid surface,” Chin. J. Lasers 39(9), 0908001 (2012).

[Crossref]

D. M. Liu and P. Z. Lin, “A numerical study of three-dimensional liquid sloshing in tanks,” J. Comput. Phys. 227(8), 3921–3939 (2008).

[Crossref]

Z. W. Liu, H. M. Xie, C. Z. Gu, and Y. G. Meng, “The digital geometric phase technique applied to the deformation evaluation of MEMS devices,” J. Micromech. Microeng. 19(1), 015012 (2009).

[Crossref]

X. Q. Feng, X. F. Gao, Z. N. Wu, L. Jiang, and Q. S. Zheng, “Superior Water Repellency of Water Strider Legs with Hierarchical Structures: Experiments and Analysis,” Langmuir 23(9), 4892–4896 (2007).

[Crossref]
[PubMed]

A. Skydan, M. J. Labor, and D. R. Burton, “3D shape measurement of automotive glass by using a fringe reflection technique,” Mater. Sci. Technol. 18, 106–114 (2007).

Z. W. Liu, X. F. Huang, H. M. Xie, X. H. Lou, and H. Du, “The artificial periodic lattice phase analysis method applied to deformation evaluation of TiNi shape memory alloy in micro scale,” Meas. Sci. Technol. 22(12), 125702 (2011).

[Crossref]

M. J. Hÿtch, J. L. Putaux, and J. M. Pénisson, “Measurement of the displacement field of dislocations to 0.03 A by electron microscopy,” Nature 423(6937), 270–273 (2003).

[Crossref]
[PubMed]

D. L. Hu, B. Chan, and J. W. M. Bush, “The hydrodynamics of water strider locomotion,” Nature 424(6949), 663–666 (2003).

[Crossref]
[PubMed]

X. F. Gao and L. Jiang, “Biophysics: water-repellent legs of water striders,” Nature 432(7013), 36 (2004).

[Crossref]
[PubMed]

F. Chen, G. M. Brown, and M. Song, “Overview of three-dimensional shape measurement using optical methods,” Opt. Eng. 39(1), 10–22 (2000).

[Crossref]

Y. Tang, X. Y. Su, Y. K. Liu, and H. L. Jing, “3D shape measurement of the aspheric mirror by advanced phase measuring deflectometry,” Opt. Express 16(19), 15090–15096 (2008).

[Crossref]
[PubMed]

Y. Tang, X. Y. Su, F. Wu, and Y. K. Liu, “A novel phase measuring deflectometry for aspheric mirror test,” Opt. Express 17(22), 19778–19784 (2009).

[Crossref]
[PubMed]

L. Huang, C. S. Ng, and A. K. Asundi, “Dynamic three-dimensional sensing for specular surface with monoscopic fringe reflectometry,” Opt. Express 19(13), 12809–12814 (2011).

[Crossref]
[PubMed]

C. W. Li, Z. W. Liu, H. M. Xie, and D. Wu, “Novel 3D SEM Moiré method for micro height measurement,” Opt. Express 21(13), 15734–15746 (2013).

[Crossref]
[PubMed]

Z. W. Liu and J. X. Gao, “Deformation-pattern-based digital speckle correlation for coefficient of thermal expansion evaluation of film,” Opt. Express 19(18), 17469–17479 (2011).

[Crossref]
[PubMed]

Q. C. Zhang and X. Y. Su, “High-speed optical measurement for the drumhead vibration,” Opt. Express 13(8), 3110–3116 (2005).

[Crossref]
[PubMed]

S. Zhang, “Recent progresses on real-time 3D shape measurement using digital fringe projection techniques,” Opt. Lasers Eng. 48(2), 149–158 (2010).

[Crossref]

Z. W. Liu, X. F. Huang, and H. M. Xie, “A novel orthogonal transmission-virtual grating method and its applications in measuring micro 3-D shape of deformed liquid surface,” Opt. Lasers Eng. 51(2), 167–171 (2013).

[Crossref]

T. Bothe, W. S. Li, C. V. Kopylow, and W. Jüptner, “High-resolution 3D shape measurement on specular surfaces by fringe reflection,” Proc. SPIE 5457, 411–422 (2004).

[Crossref]