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基于原子自旋的传感器对磁性和非磁性微扰的响应。

Response of atomic spin-based sensors to magnetic and nonmagnetic perturbations.

作者信息

Padniuk Mikhail, Kopciuch Marek, Cipolletti Riccardo, Wickenbrock Arne, Budker Dmitry, Pustelny Szymon

机构信息

Marian Smoluchowski Institute of Physics, Jagiellonian University, Łojasiewicza 11, 30-348, Kraków, Poland.

Helmholtz Institute, Johannes Gutenberg-Universitat at Mainz, 55099, Mainz, Germany.

出版信息

Sci Rep. 2022 Jan 10;12(1):324. doi: 10.1038/s41598-021-03609-w.

DOI:10.1038/s41598-021-03609-w
PMID:35013346
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8748673/
Abstract

Searches for pseudo-magnetic spin couplings require implementation of techniques capable of sensitive detection of such interactions. While Spin-Exchange Relaxation Free (SERF) magnetometry is one of the most powerful approaches enabling the searches, it suffers from a strong magnetic coupling, deteriorating the pseudo-magnetic coupling sensitivity. To address this problem, here, we compare, via numerical simulations, the performance of SERF magnetometer and noble-gas-alkali-metal co-magnetometer, operating in a so-called self-compensating regime. We demonstrate that the co-magnetometer allows reduction of the sensitivity to low-frequency magnetic fields without loss of the sensitivity to nonmagnetic couplings. Based on that we investigate the responses of both systems to the oscillating and transient spin perturbations. Our simulations reveal about five orders of magnitude stronger response to the neutron pseudo-magnetic coupling and about three orders of magnitude stronger response to the proton pseudo-magnetic coupling of the co-magnetometer than those of the SERF magnetometer. Different frequency responses of the co-magnetometer to magnetic and nonmagnetic perturbations enables differentiation between these two types of interactions. This outlines the ability to implement the co-magnetometer as an advanced sensor for the Global Network of Optical Magnetometer for Exotic Physics searches (GNOME), aiming at detection of ultra-light bosons (e.g., axion-like particles).

摘要

寻找赝磁自旋耦合需要采用能够灵敏探测此类相互作用的技术。虽然无自旋交换弛豫(SERF)磁力测量法是实现此类寻找的最强大方法之一,但它存在强磁耦合问题,会降低赝磁耦合灵敏度。为解决这一问题,我们在此通过数值模拟比较了SERF磁力计和稀有气体 - 碱金属共磁力计在所谓自补偿模式下的性能。我们证明,共磁力计能够在不损失对非磁性耦合灵敏度的情况下,降低对低频磁场的灵敏度。基于此,我们研究了这两种系统对振荡和瞬态自旋扰动的响应。我们的模拟结果表明,共磁力计对中子赝磁耦合的响应比对SERF磁力计的响应强约五个数量级,对质子赝磁耦合的响应强约三个数量级。共磁力计对磁性和非磁性扰动的不同频率响应能够区分这两种相互作用类型。这凸显了将共磁力计用作全球奇异物理光学磁力计网络(GNOME)的先进传感器的能力,该网络旨在探测超轻玻色子(例如类轴子粒子)。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9d8f/8748673/965c2a108f80/41598_2021_3609_Fig3_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9d8f/8748673/8fb81e4c0337/41598_2021_3609_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9d8f/8748673/4ee1ea1a6076/41598_2021_3609_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9d8f/8748673/965c2a108f80/41598_2021_3609_Fig3_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9d8f/8748673/8fb81e4c0337/41598_2021_3609_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9d8f/8748673/4ee1ea1a6076/41598_2021_3609_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9d8f/8748673/965c2a108f80/41598_2021_3609_Fig3_HTML.jpg

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Investigation on magnetic field response of a Rb-Xe atomic spin comagnetometer.铷-氙原子自旋共磁强计的磁场响应研究
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Improved Limits on Spin-Mass Interactions.自旋-质量相互作用的改进限制。
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