Frequency and temperature dependence of the refractive index of sapphire

Frequency and temperature dependence of the refractive index of sapphire

Because the index of refraction is temperature dependent, a temperature gradient across a window causes image blur and bore sight error. Prior to this paper, there have been no direct temperature-dependent measurements reported on the mid-infrared refractive index for sapphire, a popular infrared wi...

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Bibliographic Details
Published in:Infrared physics & technology Vol. 39; no. 4; pp. 235 - 249
Main Authors: Thomas, Michael E, Andersson, Stefan K, Sova, Raymond M, Joseph, Richard I
Format: Journal Article
Language:English
Published: Elsevier B.V 01-06-1998
Subjects:
Phonon
Refractive index
Sapphire
Sapphire
Refractive index
Phonon
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Summary:Because the index of refraction is temperature dependent, a temperature gradient across a window causes image blur and bore sight error. Prior to this paper, there have been no direct temperature-dependent measurements reported on the mid-infrared refractive index for sapphire, a popular infrared window material of high durability. Measurements of d n/d T are reported on the ordinary ray of sapphire in the 4 μm region for the first time. Accurate temperature and frequency dependent refractive index models can now be constructed from visible measurements of the refractive index, far-infrared reflectance measurements, thermo-optic coefficient measurements, and infrared measurements of the absorption coefficient. Visible measurements determine the contribution to the refractive index from electronic transitions. Far-infrared measurements determine the contributions from fundamental lattice vibrations (phonons). Infrared absorption data are used to determine parameters in a multiphonon sum band model. By applying the Hilbert transform to this multiphonon absorption model, a model for the multiphonon refractivity is obtained. Two- and three-phonon contributions to the refractive index are important for an accurate model that includes temperature dependence. Results for the ordinary- and extraordinary-rays are obtained.
ISSN:1350-4495
1879-0275
DOI:10.1016/S1350-4495(98)00010-3