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Autores principales: Sambridge, Callum S., McKenzie, Kirk
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2410.21565
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author Sambridge, Callum S.
McKenzie, Kirk
author_facet Sambridge, Callum S.
McKenzie, Kirk
contents This letter presents a dual quadrature phasemeter, an implementation of a phase-locked loop designed to track the phase of homodyne and heterodyne inter-satellite laser links. The dual quadrature phasemeters use dual quadrature optical detection to enable an alternate phase readout scheme that operates with wider bandwidths and on signals with carrier frequency differences down to DC. Analytical modeling demonstrates that dual quadrature phasemeters overcome the bandwidth limitations of conventional phasemeters. Numerical simulations of noise linearity tests found that the phase tracking error of the dual quadrature phasemeter is less than 10 microcycle/$\sqrt{\text{Hz}}$ in the presence of non-linear cyclic errors. The dual quadrature phasemeter enables exploration of a new optical configuration for retroreflector-based space geodesy missions with architecture similar to that implemented in GRACE-FO. One such alternate configuration is proposed that is capable of tracking satellite separation without requiring a frequency offset between local and incoming light, eliminating the need for optical frequency shifters.
format Preprint
id arxiv_https___arxiv_org_abs_2410_21565
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Dual Quadrature Phasemeter for Space-Based Interferometry
Sambridge, Callum S.
McKenzie, Kirk
Optics
This letter presents a dual quadrature phasemeter, an implementation of a phase-locked loop designed to track the phase of homodyne and heterodyne inter-satellite laser links. The dual quadrature phasemeters use dual quadrature optical detection to enable an alternate phase readout scheme that operates with wider bandwidths and on signals with carrier frequency differences down to DC. Analytical modeling demonstrates that dual quadrature phasemeters overcome the bandwidth limitations of conventional phasemeters. Numerical simulations of noise linearity tests found that the phase tracking error of the dual quadrature phasemeter is less than 10 microcycle/$\sqrt{\text{Hz}}$ in the presence of non-linear cyclic errors. The dual quadrature phasemeter enables exploration of a new optical configuration for retroreflector-based space geodesy missions with architecture similar to that implemented in GRACE-FO. One such alternate configuration is proposed that is capable of tracking satellite separation without requiring a frequency offset between local and incoming light, eliminating the need for optical frequency shifters.
title Dual Quadrature Phasemeter for Space-Based Interferometry
topic Optics
url https://arxiv.org/abs/2410.21565