Simultaneous thickness and phase index measurements with a motion-free actively tunable Twyman–Green interferometer

Syed Azer Reza; Arjent Imeri

doi:10.1364/AO.489084

Applied Optics
Vol. 62,
Issue 15,
pp. 3948-3958
(2023)
•https://doi.org/10.1364/AO.489084

Simultaneous thickness and phase index measurements with a motion-free actively tunable Twyman–Green interferometer

Syed Azer Reza and Arjent Imeri

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Syed Azer Reza and Arjent Imeri, "Simultaneous thickness and phase index measurements with a motion-free actively tunable Twyman–Green interferometer," Appl. Opt. 62, 3948-3958 (2023)

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- Instrumentation and Measurements
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About this Article
History
- Original Manuscript: March 2, 2023
- Revised Manuscript: April 11, 2023
- Manuscript Accepted: April 20, 2023
- Published: May 15, 2023

Abstract

In this paper, we present a scheme to simultaneously measure the thickness and refractive index of parallel plate samples, involving no bulk mechanical motion, by deploying an electronically tunable Twyman–Green interferometer configuration. The active electronic control with no bulk mechanical motion is realized via the introduction of a tunable focus lens within the classical motion-based Twyman–Green interferometer configuration. The resulting interferometer is repeatable and delivers accurate estimates of the thickness and refractive index of a sample under test. Elimination of bulk motion also promises a potential for miniaturization. We develop a theoretical model for estimating sample thickness and index values using this reconfigurable interferometer setup and present detailed experimental results that demonstrate the working principle of the proposed interferometer.

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Data underlying the results presented in this paper are not publicly available at this time but may be obtained from the authors upon reasonable request.

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Sample	Sample Type	$L$ (mm)	$f_{B}$ (mm)	$f_{R B}$ (mm)	$Δ f$ (mm)	$Δ D$ (mm)
A	Glass	281	281	262.131	18.869	1.44615
B	Glass	281	281	263.164	17.836	1.44545
C	N-SF1	281	281	270.801	10.199	0.89280

Sample Number	Thickness (mm)	Refractive Index	Estimated Thickness (mm)	Estimated Index	Percentage Error in T	Percentage Error in n
A	43.48	1.4819	41.60	1.4938	4.30%	0.80%
B	43.22	1.4933	41.29	1.5042	4.46%	0.73%
C	25.40	1.7125	25.31	1.6757	0.35%	2.15%

Sample	$[ϵ_{T}]_{d D}$ (mm)	$[ϵ_{T}]_{d f}$ (mm)	$[ϵ_{T}]_{T o t}$ (mm)	$[ϵ_{n}]_{d D}$	$[ϵ_{n}]_{d f}$	$[ϵ_{n}]_{t o t}$
A	$\pm 1.041$	$\pm 0.231$	$\pm 1.07$	$\pm 0.0125$	$\pm 0.085$	$\pm 0.087$
B	$\pm 1.024$	$\pm 0.216$	$\pm 1.05$	$\pm 0.0126$	$\pm 0.083$	$\pm 0.084$
C	$\pm 0.510$	$\pm 0.109$	$\pm 0.53$	$\pm 0.0140$	$\pm 0.079$	$\pm 0.081$

Sample	Sample Type	$L$ (mm)	$f_{B}$ (mm)	$f_{R B}$ (mm)	$Δ f$ (mm)	$Δ D$ (mm)
A	Glass	281	281	262.131	18.869	1.44615
B	Glass	281	281	263.164	17.836	1.44545
C	N-SF1	281	281	270.801	10.199	0.89280

Sample Number	Thickness (mm)	Refractive Index	Estimated Thickness (mm)	Estimated Index	Percentage Error in T	Percentage Error in n
A	43.48	1.4819	41.60	1.4938	4.30%	0.80%
B	43.22	1.4933	41.29	1.5042	4.46%	0.73%
C	25.40	1.7125	25.31	1.6757	0.35%	2.15%

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Applied Optics