Analysis of accuracy and ambiguities in spatial measurements of birefringence in uniaxial anisotropic media

Julie Bouhy; Augustin Dekoninck; Michel Voué; Olivier Deparis

doi:10.1364/AO.463657

Applied Optics
Vol. 61,
Issue 27,
pp. 8081-8090
(2022)
•https://doi.org/10.1364/AO.463657

Analysis of accuracy and ambiguities in spatial measurements of birefringence in uniaxial anisotropic media

Julie Bouhy, Augustin Dekoninck, Michel Voué, and Olivier Deparis

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Julie Bouhy, Augustin Dekoninck, Michel Voué, and Olivier Deparis, "Analysis of accuracy and ambiguities in spatial measurements of birefringence in uniaxial anisotropic media," Appl. Opt. 61, 8081-8090 (2022)

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Abstract

Accuracy and ambiguities in retardance and optical axis orientation spatial measurements are analyzed in detail in the context of the birefringence imaging method introduced by Shribak and Oldenbourg [Appl. Opt. 42, 3009 (2003) [CrossRef] ]. An alternative formula was derived in order to determine the optical axis orientation more accurately, and without indetermination in the case of a quarter-wave plate sample. Following Shribak and Oldenbourg’s experimental configuration using two variable retarders, a linear polarizer, and five polarization probes, we examined the effect of the swing angle $\chi$, which selected the ellipticity of each polarization state, on the accuracy of retardance ($\Delta$) and axis orientation ($\phi$) measurements. Using a quarter-wave plate, excellent agreement between measured and expected values was obtained for both the retardance and the axis orientation, as demonstrated by the statistical analysis of $\Delta$ and $\phi$ spatial distributions. The intrinsic ambiguity in the determination of $\Delta$ and $\phi$ for superimposed layers of transparent anisotropic cello-tape is discussed in detail, and solutions are provided to remove this ambiguity. An example of application of the method on geological samples is also presented. We believe our analysis will guide researchers willing to exploit this long-standing method in their laboratories.

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Corrections

Julie Bouhy, Augustin Dekoninck, Michel Voue, and Olivier Deparis, "Analysis of accuracy and ambiguities in spatial measurements of birefringence in uniaxial anisotropic media: publisher’s note," Appl. Opt. 61, 10062-10062 (2022)
https://opg.optica.org/ao/abstract.cfm?uri=ao-61-33-10062

21 October 2022: A typographical correction was made to the author listing.

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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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(A) UTP-137 Oriented at 60°
$χ [^{\circ}]$	10	20	30	40	50	60	70	80
$⟨ Δ ⟩ [^{\circ}]$	82.66	72.00	71.01	68.78	69.54	69.34	69.72	69.42
$σ_{Δ} [^{\circ}]$	42.21	18.69	10.39	6.96	5.32	4.46	4.90	4.06
${⟨ ϕ ⟩}_{n e w} [^{\circ}]$	60.77	60.83	61.17	61.24	61.00	61.01	61.12	61.12
$σ_{ϕ, n e w} [^{\circ}]$	3.43	1.55	1.50	1.30	1.30	1.27	1.38	1.31
$⟨ ϕ ⟩ [^{\circ}]$	$- 17.78$	$- 17.80$	$- 25.87$	$- 28.35$	$- 28.42$	$- 28.39$	$- 28.58$	$- 28.56$
$σ_{ϕ} [^{\circ}]$	25.59	22.68	13.33	6.74	4.47	2.58	1.40	2.07
(B) Absence of Sample
$χ [^{\circ}]$	10	20	30	40	50	60	70	80
$⟨ Δ ⟩ [^{\circ}]$	15.75	5.98	4.47	3.90	4.03	4.35	4.68	5.42
$σ_{Δ} [^{\circ}]$	39.36	17.72	7.12	2.88	2.80	3.00	3.40	3.87
$μ [^{\circ}]$	9.85	4.97	4.07	3.90	4.03	4.35	4.68	$5.42$
$σ [^{\circ}]$	32.61	16.31	6.91	2.88	2.80	3.00	3.40	$3.87$
(C) HWP
$χ [^{\circ}]$	10	20	30	40	50	60	70	80
$⟨ Δ ⟩ [^{\circ}]$	$99.29$	134.60	172.33	174.05	172.80	174.24	174.55	174.51
$σ_{Δ} [^{\circ}]$	82.47	64.27	8.90	4.22	3.82	3.54	3.41	3.45
(D) QWP Oriented at $- 30^{\circ}$
$χ [^{\circ}]$	10	20	30	40	50	60
$⟨ Δ ⟩ [^{\circ}]$	90.23	87.70	87.94	89.48	89.23	89.77
$σ_{Δ} [^{\circ}]$	46.23	20.63	12.63	9.90	8.79	8.28
$⟨ ϕ_{n e w} ⟩ [^{\circ}]$	$- 30.09$	$- 30.31$	$- 30.27$	$- 30.18$	$- 30.25$	$- 30.17$
$σ_{ϕ, n e w} [^{\circ}]$	4.65	2.22	1.76	1.66	1.65	1.60

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Applied Optics