量子噪声限制和纠缠辅助磁力测量。

Quantum noise limited and entanglement-assisted magnetometry.

机构信息

Niels Bohr Institute, Danish Quantum Optics Center QUANTOP, Copenhagen University, Blegdamsvej 17, 2100 Copenhagen, Denmark.

出版信息

Phys Rev Lett. 2010 Apr 2;104(13):133601. doi: 10.1103/PhysRevLett.104.133601. Epub 2010 Mar 31.

DOI:10.1103/PhysRevLett.104.133601

PMID:20481884

Abstract

We study experimentally the fundamental limits of sensitivity of an atomic radio-frequency magnetometer. First, we apply an optimal sequence of state preparation, evolution, and the backaction evading measurement to achieve a nearly projection noise limited sensitivity. We furthermore experimentally demonstrate that Einstein-Podolsky-Rosen entanglement of atoms generated by a measurement enhances the sensitivity to pulsed magnetic fields. We demonstrate this quantum limited sensing in a magnetometer utilizing a truly macroscopic ensemble of 1.5x10(12) atoms which allows us to achieve subfemtotesla/square root(Hz) sensitivity.

摘要

我们实验研究了原子射频磁强计灵敏度的基本限制。首先，我们应用最优的态制备、演化和反作用规避测量序列，实现了几乎达到投影噪声限制的灵敏度。此外，我们还实验证明了通过测量产生的原子的爱因斯坦-波多尔斯基-罗森纠缠增强了对脉冲磁场的灵敏度。我们在利用真正的宏观 1.5x10(12)原子的磁强计中演示了这种量子限制的传感，这使得我们能够实现亚飞特斯拉/根号（赫兹）的灵敏度。

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量子噪声限制和纠缠辅助磁力测量。

Quantum noise limited and entanglement-assisted magnetometry.

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