Optimization of quantum noise by completing the square of multiple interferometer outputs in quantum locking for gravitational wave detectors

Yamada Rika; Enomoto Yutaro; Nishizawa Atsushi; Nagano Koji; Kuroyanagi Sachiko; Kokeyama Keiko; Komori Kentaro; Michimura Yuta; Naito Takeo; Watanabe Izumi; Morimoto Taigen; Ando Masaki; Furusawa Akira; Kawamura Seiji

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Optimization of quantum noise by completing the square of multiple interferometer outputs in quantum locking for gravitational wave detectors

机译：通过完成量子锁定的多种干涉仪输出的平方来优化量子噪声，用于引力波检测器

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The quantum locking technique, which uses additional short low-loss sub-cavities, is effective in reducing quantum noise in space gravitational wave antenna DECIGO. However, the quantum noise of the main interferometer depends on the control systems in the sub-cavities. Here we demonstrate a new method to optimize the quantum noise independently of the feedback gain by completing the square of multiple interferometer outputs in the quantum locking system. We successfully demonstrate in simulations that this method is effective in optimizing the homodyne angle to the best quantum-noise-limited sensitivity. (C) 2020 Elsevier B.V. All rights reserved.

机译：使用额外的短低损耗子空腔的量子锁定技术在减少空间引力波天线Defigo中的量子噪声是有效的。然而，主要干涉仪的量子噪声取决于子腔中的控制系统。在这里，我们通过完成量子锁定系统中的多个干涉仪输出的正方形来展示一种新的方法，可以通过完成多个干涉仪输出的正方形来优化反馈增益。我们在模拟中成功证明了这种方法在优化杂质角度以获得最佳量子噪声限制灵敏度的仿真有效。（c）2020 Elsevier B.v.保留所有权利。

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来源
《Physics Letters, A》 |2020年第26期|共6页
作者
Yamada Rika; Enomoto Yutaro; Nishizawa Atsushi; Nagano Koji; Kuroyanagi Sachiko; Kokeyama Keiko; Komori Kentaro; Michimura Yuta; Naito Takeo; Watanabe Izumi; Morimoto Taigen; Ando Masaki; Furusawa Akira; Kawamura Seiji;
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作者单位

Nagoya Univ Dept Phys Chikusa Ku Furo Cho Nagoya Aichi 4648602 Japan;

Univ Tokyo Dept Phys Bunkyo Ku Tokyo 1130033 Japan;

Univ Tokyo Res Ctr Early Universe RESCEU Sch Sci Tokyo 1130033 Japan;

Univ Tokyo Inst Cosm Ray Res 5-1-5 Kashiwa No Ha Kashiwa Chiba 2778582 Japan;

Nagoya Univ Dept Phys Chikusa Ku Furo Cho Nagoya Aichi 4648602 Japan;

Univ Tokyo Inst Cosm Ray Res 5-1-5 Kashiwa No Ha Kashiwa Chiba 2778582 Japan;

MIT LIGO Lab 77 Massachusetts Ave Cambridge MA 02139 USA;

Univ Tokyo Dept Phys Bunkyo Ku Tokyo 1130033 Japan;

Nagoya Univ Dept Phys Chikusa Ku Furo Cho Nagoya Aichi 4648602 Japan;

Nagoya Univ Dept Phys Chikusa Ku Furo Cho Nagoya Aichi 4648602 Japan;

Nagoya Univ Dept Phys Chikusa Ku Furo Cho Nagoya Aichi 4648602 Japan;

Univ Tokyo Dept Phys Bunkyo Ku Tokyo 1130033 Japan;

Univ Tokyo Sch Engn Dept Appl Phys Bunkyo Ku 7-3-1 Hongo Tokyo 1138656 Japan;

Nagoya Univ Dept Phys Chikusa Ku Furo Cho Nagoya Aichi 4648602 Japan;

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原文格式 PDF
正文语种 eng
中图分类物理学;
关键词
Gravitational wave; DECIGO; Quantum locking; Squeezing; Completing the square; Fabry-Perot cavity;

机译：引力波;迪士戈;量子锁定;挤压;完成广场;法布里 - 珀罗腔;

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专利

1. Optimization of quantum noise by completing the square of multiple interferometer outputs in quantum locking for gravitational wave detectors [J] . Yamada Rika, Enomoto Yutaro, Nishizawa Atsushi, Physics Letters, A . 2020,第26期

机译：通过完成量子锁定的多种干涉仪输出的平方来优化量子噪声，用于引力波检测器
2. Quantum noise in gravitational-wave interferometers [J] . Thomas Corbitt, Nergis Mavalvala Journal of optics, B. Quantum and semiclassical optics: Journal of the European Optical Society . 2004,第8期

机译：重力波干涉仪中的量子噪声
3. Frequency-Dependent Squeezed Vacuum Source for Broadband Quantum Noise Reduction in Advanced Gravitational-Wave Detectors [J] . Zhao Yuhang, Aritomi Naoki, Capocasa Eleonora, Physical review letters . 2020,第17期

机译：用于高级引力波检测器的宽带量子降噪频率依赖性挤压真空源
4. Quantum noise reduction in the LIGO gravitational wave interferometer with squeezed states of light [C] . Barsotti Lisa Conference on Lasers and Electro-Optics . 2014

机译：LIGO重力波干涉仪在压缩态下的量子降噪
5. Cross-correlation Searches for Persistent Gravitational Waves with Advanced LIGO and Noise Studies for Current and Future Ground-based Gravitational-wave Detectors [D] . Meyers, Patrick Michael. 2018

机译：具有高级LIGO和电流和未来基于地基引力波检测器的持续重力波的互相关搜索
6. Quantum Measurement Theory in Gravitational-Wave Detectors [O] . Stefan L. Danilishin, Farid Ya. Khalili -1

机译：引力波探测器中的量子测量理论
7. Optimization of quantum noise by completing the square of multiple interferometer outputs in quantum locking for gravitational wave detectors [O] . Rika Yamada, Yutaro Enomoto, Atsushi Nishizawa, 2020

机译：通过完成量子锁定的多种干涉仪输出的平方来优化量子噪声，用于引力波检测器

Optimization of quantum noise by completing the square of multiple interferometer outputs in quantum locking for gravitational wave detectors

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