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Autori principali: Tao, Liu, Diaz-Ortiz, Mauricio, Fulda, Paul
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2502.13885
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author Tao, Liu
Diaz-Ortiz, Mauricio
Fulda, Paul
author_facet Tao, Liu
Diaz-Ortiz, Mauricio
Fulda, Paul
contents Active mode mismatch sensing and control can facilitate optimal coupling in optical cavity experiments such as interferometric gravitational wave detectors. In this paper, we demonstrate a radio-frequency (RF) beam wavefront curvature modulation-based mode mismatch sensing scheme inspired by the previously proposed RF beam jitter alignment sensing scheme. The proposed mode mismatch sensing scheme uses an electro-optic lens (EOL) device that is designed to provide the required beam wavefront curvature actuation, as well as a mode converting telescope that rephases the RF second-order modes and generates a non-vanishing mode mismatch sensing signal. We carefully investigate the total second-order mode generation from the wavefront actuation both analytically and numerically, taking the effects of Gaussian beam size evolution and the second-order mode phase mismatch cancellation into consideration. We demonstrate the second-order mode generation as a function of the incident beam waist size and the electro-optic crystal size, which along with a ``trade-off'' consideration of the beam size at the edges of the crystal and the clipping loss, provides us with guidance for designing the beam profile that interacts with the crystal to improve the EOL modulation efficiency.
format Preprint
id arxiv_https___arxiv_org_abs_2502_13885
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle High-efficiency Electro-Optic Lens for radio frequency beam wavefront modulation for mode mismatch sensing
Tao, Liu
Diaz-Ortiz, Mauricio
Fulda, Paul
Optics
Active mode mismatch sensing and control can facilitate optimal coupling in optical cavity experiments such as interferometric gravitational wave detectors. In this paper, we demonstrate a radio-frequency (RF) beam wavefront curvature modulation-based mode mismatch sensing scheme inspired by the previously proposed RF beam jitter alignment sensing scheme. The proposed mode mismatch sensing scheme uses an electro-optic lens (EOL) device that is designed to provide the required beam wavefront curvature actuation, as well as a mode converting telescope that rephases the RF second-order modes and generates a non-vanishing mode mismatch sensing signal. We carefully investigate the total second-order mode generation from the wavefront actuation both analytically and numerically, taking the effects of Gaussian beam size evolution and the second-order mode phase mismatch cancellation into consideration. We demonstrate the second-order mode generation as a function of the incident beam waist size and the electro-optic crystal size, which along with a ``trade-off'' consideration of the beam size at the edges of the crystal and the clipping loss, provides us with guidance for designing the beam profile that interacts with the crystal to improve the EOL modulation efficiency.
title High-efficiency Electro-Optic Lens for radio frequency beam wavefront modulation for mode mismatch sensing
topic Optics
url https://arxiv.org/abs/2502.13885