Jiahao Cao scite author profile

Interferometry is a paradigm for most precision measurements. Using N uncorrelated particles, the achievable precision for a two-mode (two-path) interferometer is bounded by the standard quantum limit (SQL), [Formula: see text], due to the discrete (quanta) nature of individual measurements. Despite being a challenging benchmark, the two-mode SQL has been approached in a number of systems, including the Laser Interferometer Gravitational-Wave Observatory and today's best atomic clocks. For multimode interferometry, the SQL becomes [Formula: see text] using modes. Higher precision can also be achieved using entangled particles such that quantum noises from individual particles cancel out. In this work, we demonstrate an interferometric precision of [Formula: see text] dB beyond the three-mode SQL, using balanced spin-1 (three-mode) Dicke states containing thousands of entangled atoms. The input quantum states are deterministically generated by controlled quantum phase transition and exhibit close to ideal quality. Our work shines light on the pursuit of quantum metrology beyond SQL.

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Energy

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Jiahao Cao

Beating the classical precision limit with spin-1 Dicke states of more than 10,000 atoms

Realtime DDoS Defense Using COTS SDN Switches via Adaptive Correlation Analysis

Disrupting SDN via the Data Plane: A Low-Rate Flow Table Overflow Attack

Liquid cooling with phase change materials for cylindrical Li-ion batteries: An experimental and numerical study

Compact liquid cooling strategy with phase change materials for Li-ion batteries optimized using response surface methodology

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