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Quantum Sensing with Joint Emitter-Fluorescence Measurements

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abstract

We present an analytically tractable model of a driven quantum harmonic emitter, such as an oscillating charged dipole, emitting radiation via resonance fluorescence. With this model we are able to characterize the quantum mechanical correlations that are built up at early times between the drive, the resonant emitter, and its fluorescence. We describe detection strategies that can reveal these quantum signatures in experiments by performing joint measurements on the quantum emitter and its fluorescence field. In particular, we show that simultaneous quantum measurements of a driven quantum emitter and its fluorescence can be used to probe the quantum noise of the driving field, relative to the maximally classical coherent state of the driving field, in short-time experiments. We conclude by discussing the applications to quantum sensing in quantum optical, quantum acoustic, and quantum gravitational scenarios of interest.

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quant-ph 1

years

2026 1

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UNVERDICTED 1

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Correlated Quantum Sensing at the Seemingly Classical Limit

quant-ph · 2026-06-01 · unverdicted · novelty 5.0

Correlated sensing with thermal-state resonant detectors enables statistical tests via symmetric correlators to reveal quantum noise characteristics of gravitons in two- and three-detector tabletop configurations.

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  • Correlated Quantum Sensing at the Seemingly Classical Limit quant-ph · 2026-06-01 · unverdicted · none · ref 45 · internal anchor

    Correlated sensing with thermal-state resonant detectors enables statistical tests via symmetric correlators to reveal quantum noise characteristics of gravitons in two- and three-detector tabletop configurations.