A transient framework in cavity-magnon systems enhances SNR via initial quantum correlations, achieves crosstalk-free 3D magnetometry, and identifies a resonance condition that cancels cavity noise without strong coupling, with 1/N noise scaling in arrays.
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Predicts tunable nonlinear tripartite spin-magnon-motion coupling at the single-quantum level in a trapped-electron and micromagnet hybrid system.
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Quantum Magnetometry with Orientation beyond Steady-State Limits in Cavity-Magnon Systems
A transient framework in cavity-magnon systems enhances SNR via initial quantum correlations, achieves crosstalk-free 3D magnetometry, and identifies a resonance condition that cancels cavity noise without strong coupling, with 1/N noise scaling in arrays.
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Nonlinear Tripartite Coupling of Trapped Electrons with Magnons in a Hybrid Quantum System
Predicts tunable nonlinear tripartite spin-magnon-motion coupling at the single-quantum level in a trapped-electron and micromagnet hybrid system.