Measurement of transmission and reflection from a thick anisotropic crystal modeled by a sum of incoherent partial waves

Shane Nichols; Oriol Arteaga; Alexander Martin; Bart Kahr

doi:10.1364/JOSAA.32.002049

Journal of the Optical Society of America A
Vol. 32,
Issue 11,
pp. 2049-2057
(2015)
•https://doi.org/10.1364/JOSAA.32.002049

Measurement of transmission and reflection from a thick anisotropic crystal modeled by a sum of incoherent partial waves

Shane Nichols, Oriol Arteaga, Alexander Martin, and Bart Kahr

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Shane Nichols, Oriol Arteaga, Alexander Martin, and Bart Kahr, "Measurement of transmission and reflection from a thick anisotropic crystal modeled by a sum of incoherent partial waves," J. Opt. Soc. Am. A 32, 2049-2057 (2015)

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Related Topics
Table of Contents Category
- Materials
Optics & Photonics Topics
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The topics in this list come from the Optics and Photonics Topics applied to this article.
Previously assigned OCIS codes
- Coherence and statistical optics (030.0030)
- Ellipsometry and polarimetry (120.2130)
- Anisotropic optical materials (160.1190)
- Chiral media (160.1585)
- Crystal optics (260.1180)

About this Article
History
- Original Manuscript: June 8, 2015
- Revised Manuscript: August 30, 2015
- Manuscript Accepted: September 15, 2015
- Published: October 16, 2015

Abstract

Formulas for modeling ellipsometric measurements of bianisotropic crystals assume perfectly coherent plane wave illumination. As such, the finite coherence of typical spectroscopic ellipsometers renders such formulas invalid for crystals thicker than a few micrometers. Reflection measurements of thick crystalline slabs show depolarization. Researchers have proposed strategies for the full accounting for multiply reflected incoherent waves in anisotropic, arbitrarily oriented crystals [Appl. Opt. 41, 2521 (2002). [CrossRef] ], but to the best of our knowledge these methods have not been tested by explicit measurements. It is shown that by a summation of multiply reflected incoherent waves, transmission and reflection measurements of thick quartz slabs can be interpreted in terms of the constitutive material parameters.

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Parameter	Fitted Value	Literature	Ref.
$ε_{11}, B_{1}$	1.07028	1.07044	[23]
$ε_{11}, C_{1}$	0.01003 μm	0.01006 μm	[23]
$ε_{11}, B_{2}$	1.14128	1.10202	[23]
$ε_{11}, D$	1.28584	1.28604	[23]
$ε_{33}, B_{1}$	1.09489	1.09510	[23]
$ε_{33}, C_{1}$	0.010173 μm	0.01021 μm	[23]
$ε_{33}, B_{2}$	1.20014	1.15662	[23]
$ε_{33}, D$	1.28833	1.28852	[23]
$α_{11}, B$	0.0199	0.0198	[18]
$α_{11}, C$	0.092 μm	0.093 μm	[18]
$α_{33}, B$	−0.0390	−0.0408	[18]
$α_{33}, C$	0.0890 μm	0.087 μm	[18]

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