Thermorefringent noise in crystalline optical materials

Thermorefringent noise in crystalline optical materials

Any material in thermal equilibrium exhibits fundamental thermodynamic fluctuations of its mechanical and optical properties. Such thermodynamic fluctuations of length, elastic constants, and refractive index of amorphous materials -- like dielectric mirror coatings and substrates -- limit the perfo...

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Veröffentlicht in:arXiv.org 2022-03
Hauptverfasser: Kryhin, Serhii, Hall, Evan D, Vivishek Sudhir
Format: Artikel
Sprache:eng
Schlagworte:
Amorphous materials
Anisotropy
Birefringence
Crystal structure
Crystallinity
Depolarization
Elastic limit
Elastic properties
Microscopes
Noise
Optical instruments
Optical materials
Optical properties
Optics
Physics - Optics
Physics - Statistical Mechanics
Refractivity
Substrates
Thermal noise
Thermodynamic equilibrium
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Beschreibung
Zusammenfassung:Any material in thermal equilibrium exhibits fundamental thermodynamic fluctuations of its mechanical and optical properties. Such thermodynamic fluctuations of length, elastic constants, and refractive index of amorphous materials -- like dielectric mirror coatings and substrates -- limit the performance of today's most precise optical instruments. Crystalline materials are increasingly employed in optical systems because of their reduced mechanical dissipation, which implies a reduction of thermo-mechanical fluctuations. However, the anisotropy of the crystalline state implies a fundamental source of thermal noise: depolarization induced by thermal fluctuations of its birefringence. We establish the theory of this effect, elucidate its consequences, discuss its relevance for precision optical experiments with crystalline materials, and hint at the conditions under which it can be evaded.
ISSN:2331-8422
DOI:10.48550/arxiv.2111.05433