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Autores principales: Huang, Xiaofei, Wei, Kai, Rui, Yang, Gong, Dinghui, Zhou, Saixin, Zheng, Jie, Quan, Wei
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2505.18462
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author Huang, Xiaofei
Wei, Kai
Rui, Yang
Gong, Dinghui
Zhou, Saixin
Zheng, Jie
Quan, Wei
author_facet Huang, Xiaofei
Wei, Kai
Rui, Yang
Gong, Dinghui
Zhou, Saixin
Zheng, Jie
Quan, Wei
contents Atomic spin sensors are essential for beyond-the-standard-model exploration, biomagnetic measurement, and quantum navigation. While the traditional DC mode spin-exchange relaxation-free (SERF) comagnetometer achieves ultrahigh sensitivity, further improvements require suppressing technical noise and surpassing standard quantum limit. In this work, we develop a K-Rb-$^{21}$Ne SERF atomic comagnetometer that dynamically polarizes the electron and nuclear spins, shielding signals from direct interference by pump light. We establish a three-phase evolutionary model for hybrid spin ensemble dynamics, yielding a complete analytical solution, and analyze the responses to various spin perturbations. Additionally, we achieve an averaged 38.5 $\%$ suppression of the polarization noise and identify the key factors that limit sensitivity improvements. The dynamically polarized comagnetometer exhibits effective suppression of technical noise and holds the potential to overcome quantum noise limit, while offering promising applications in exploring new physics and precise magnetic field measurements.
format Preprint
id arxiv_https___arxiv_org_abs_2505_18462
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Dynamically Polarized SERF Atomic Comagnetometer
Huang, Xiaofei
Wei, Kai
Rui, Yang
Gong, Dinghui
Zhou, Saixin
Zheng, Jie
Quan, Wei
Atomic Physics
Atomic spin sensors are essential for beyond-the-standard-model exploration, biomagnetic measurement, and quantum navigation. While the traditional DC mode spin-exchange relaxation-free (SERF) comagnetometer achieves ultrahigh sensitivity, further improvements require suppressing technical noise and surpassing standard quantum limit. In this work, we develop a K-Rb-$^{21}$Ne SERF atomic comagnetometer that dynamically polarizes the electron and nuclear spins, shielding signals from direct interference by pump light. We establish a three-phase evolutionary model for hybrid spin ensemble dynamics, yielding a complete analytical solution, and analyze the responses to various spin perturbations. Additionally, we achieve an averaged 38.5 $\%$ suppression of the polarization noise and identify the key factors that limit sensitivity improvements. The dynamically polarized comagnetometer exhibits effective suppression of technical noise and holds the potential to overcome quantum noise limit, while offering promising applications in exploring new physics and precise magnetic field measurements.
title Dynamically Polarized SERF Atomic Comagnetometer
topic Atomic Physics
url https://arxiv.org/abs/2505.18462