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Main Authors: Velazquez-Ibarra, Lorena, Barranco, Juan
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2412.15456
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author Velazquez-Ibarra, Lorena
Barranco, Juan
author_facet Velazquez-Ibarra, Lorena
Barranco, Juan
contents The diverse applications of whispering gallery modes in spherical microresonators are strongly related to the sphere size and material composition. Their design should therefore be optimized to ensure that parameters such as the quality factor and the free spectral range are maximized. Because of the imminent capacity crisis of the optical communication systems operating at the 1550 nm wavelength regime, it is time to explore optical communications at the 2 $μ\mbox{m}$ wavelength window. In this work, we analytically investigate key resonator parameters - quality factor and free spectral range - as a function of wavelength, aiming to establish a methodology to help identify optimal materials for whispering gallery mode sensors, with special attention at the 2 $μ\mbox{m}$ wavelength window. Specifically, we examine three materials: fused silica, AsSe chalcogenide glass and calcium fluoride, and we perform a comparison between them in order to identify the region in the parameter space of resonant wavelengths and sphere radius, $(λ_R,R$), where the WGM resonators are optimal at wavelengths $1.8 μ\mbox{m}<λ<2.1 μ\mbox{m}$.
format Preprint
id arxiv_https___arxiv_org_abs_2412_15456
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Looking for optimal materials for whispering gallery modes applications at the 2 $μ$m window
Velazquez-Ibarra, Lorena
Barranco, Juan
Optics
The diverse applications of whispering gallery modes in spherical microresonators are strongly related to the sphere size and material composition. Their design should therefore be optimized to ensure that parameters such as the quality factor and the free spectral range are maximized. Because of the imminent capacity crisis of the optical communication systems operating at the 1550 nm wavelength regime, it is time to explore optical communications at the 2 $μ\mbox{m}$ wavelength window. In this work, we analytically investigate key resonator parameters - quality factor and free spectral range - as a function of wavelength, aiming to establish a methodology to help identify optimal materials for whispering gallery mode sensors, with special attention at the 2 $μ\mbox{m}$ wavelength window. Specifically, we examine three materials: fused silica, AsSe chalcogenide glass and calcium fluoride, and we perform a comparison between them in order to identify the region in the parameter space of resonant wavelengths and sphere radius, $(λ_R,R$), where the WGM resonators are optimal at wavelengths $1.8 μ\mbox{m}<λ<2.1 μ\mbox{m}$.
title Looking for optimal materials for whispering gallery modes applications at the 2 $μ$m window
topic Optics
url https://arxiv.org/abs/2412.15456