First experimental realization of a quantum-regime single-ion phonon laser for electrometry, achieving 14.15 μV/m/√Hz sensitivity governed by finite-time Liouvillian dynamics.
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2026 3verdicts
UNVERDICTED 3representative citing papers
A modulation-theory reformulation separates mean position operators from quantum-fluctuation deviations to produce a Bessel-function approximation for atomic transition couplings whose error is attributed to the uncertainty principle.
A review of time-reversal and interaction-based readout in cavity QED for quantum metrology, covering SATIN, scrambling-enhanced metrology, and related schemes.
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Finite-Time Electrometry with a Quantum-Regime Single-Ion Phonon Laser
First experimental realization of a quantum-regime single-ion phonon laser for electrometry, achieving 14.15 μV/m/√Hz sensitivity governed by finite-time Liouvillian dynamics.
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Modulation theory formulation of atomic light-matter interaction
A modulation-theory reformulation separates mean position operators from quantum-fluctuation deviations to produce a Bessel-function approximation for atomic transition couplings whose error is attributed to the uncertainty principle.
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Time-Reversal and Reversible Dynamics in Cavity QED for Quantum Metrology
A review of time-reversal and interaction-based readout in cavity QED for quantum metrology, covering SATIN, scrambling-enhanced metrology, and related schemes.