Quantum squeezed light in gravitationalwave detectors

S S Y Chu; B J J Slagmolen; D A Shaddock; D E McClelland

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Quantum squeezed light in gravitationalwave detectors

机译：重力波探测器中的量子压缩光

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The field of squeezed states for gravitational-wave (GW) detector enhancement is rapidly maturing. In this review paper, we provide an analysis of the field circa 2013. We begin by outlining the concept and description of quantum squeezed states. This is followed by an overview of how quantum squeezed states can improve GW detection, and the requirements on squeezed states to achieve such enhancement. Next, an overview of current technology for producing squeezed states, using atoms, optomechanical methods and nonlinear crystals, is provided. We finally highlight the milestone squeezing implementation experiments at the GEO600 and LIGO GW detectors.

机译：用于重力波（GW）检测器增强的压缩状态领域正在迅速成熟。在这篇综述文章中，我们对2013年左右的磁场进行了分析。我们首先概述了量子压缩态的概念和描述。接下来是对量子压缩态如何改善GW检测的概述，以及对实现这种增强的压缩态的要求。接下来，概述了使用原子，光学机械方法和非线性晶体产生挤压态的当前技术。最后，我们重点介绍了GEO600和LIGO GW检测器上的里程碑式挤压实施实验。

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来源
《Classical and Quantum Gravity: An Interantional Journal of Gravity Geometry of Field Theories Supergravity Cosmology》 |2014年第18期|共26页
作者
S S Y Chu; B J J Slagmolen; D A Shaddock; D E McClelland;
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正文语种 eng
中图分类量子论;
关键词
squeezed states; interferometry; gravitational-wave detectors;

机译：压缩状态干涉测量引力波探测器;

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1. Quantum squeezed light in gravitationalwave detectors [J] . S S Y Chu, B J J Slagmolen, D A Shaddock, Classical and Quantum Gravity: An Interantional Journal of Gravity Geometry of Field Theories Supergravity Cosmology . 2014,第18期

机译：重力波探测器中的量子压缩光
2. Fundamental quantum interferometry bound for the squeezed-light-enhanced gravitational wave detector GEO 600 [J] . Demkowicz-Dobrzański R., Banaszek K., Schnabel R. Physical Review, A. Atomic, molecular, and optical physics . 2013,第4aPta1期

机译：基本量子干涉法绑定到光增强重力波检测器GEO 600
3. A gravitational wave detector operating beyond the quantum shot-noise limit: Squeezed light in application [J] . Roman Schnabel EPJ Web of Conferences . 2013,第7期

机译：引力波探测器的工作超出了量子散粒噪声的限制：应用中压缩了光
4. A SQUEEZED LIGHT SOURCE FOR THE GRAVITATIONALWAVE DETECTOR GEO600 [C] . A. KHALAIDOVSKI, H. VAHLBRUCH, N. LASTZKA, Marcel Grossmann Meeting on General Relativity . 2012

机译：引力探测器的挤压光源GEO600
5. Novel layered semiconductor quantum structures in new material systems --- III-nitride quantum cascade emitters and detectors, light emission in Fe:ZnSe with quantum cascade laser pumping, theoretical methods with real-time Green's functions, and hyperbolic metamaterials. [D] . Song, Yu. 2014

机译：新材料系统中的新型分层半导体量子结构---氮化物量子级联发射器和检测器，具有量子级联激光泵浦的Fe：ZnSe发光，具有实时格林函数的理论方法以及双曲线超材料。
6. Detector-Independent Verification of Quantum Light [O] . J. Sperling, W. R. Clements, A. Eckstein, -1

机译：与探测器无关的量子光验证
7. A gravitational wave detector operating beyond the quantum shot-noise limit: Squeezed light in application [O] . Schnabel Roman, LIGO Scientific Collaboration 2013

机译：引力波探测器的工作超出了量子散粒噪声的限制：应用中压缩了光

Quantum squeezed light in gravitationalwave detectors

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