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1 March 2019 A quantum-chaotic cesium-vapor magnetometer
Lukas J. Fiderer, Daniel Braun
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Proceedings Volume 10934, Optical, Opto-Atomic, and Entanglement-Enhanced Precision Metrology; 109342S (2019) https://doi.org/10.1117/12.2515204
Event: SPIE OPTO, 2019, San Francisco, California, United States
Abstract
Quantum-enhanced measurements represent the path towards the best measurement precision allowed by the laws of quantum mechanics. Known protocols usually rely on the preparation of entangled states and promise high or even optimal precision, but fall short in real-word applications because of the difficulty to generate entangled states and to protect them against decoherence. Here, we refrain from the preparation of entangled states but supplement the integrable parameter-encoding dynamics by non-linear kicks driving the system in the dynamical regime of quantum chaos. We show that large improvements in measurement precision are possible by modeling a spin-exchange relaxation-free alkali-vapor magnetometer where the non-linear kicks are realized by exploiting the ac Stark effect.
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Lukas J. Fiderer and Daniel Braun "A quantum-chaotic cesium-vapor magnetometer", Proc. SPIE 10934, Optical, Opto-Atomic, and Entanglement-Enhanced Precision Metrology, 109342S (1 March 2019); https://doi.org/10.1117/12.2515204
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KEYWORDS
Magnetometers
Quantum chaos
Magnetism
Sensors
Cesium
Polarization
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