A squeezing protocol is proposed for nuclear spin ensembles coupled to superconducting circuits to achieve up to 48 dB squeezing and enhance superradiant interactions for relic detection.
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Proposes cavity-mediated spin-momentum-mixing to create self-ordered supersolid phases in spinor condensates, modeled by the two-component Tavis-Cummings Hamiltonian, with undamped gapless Goldstone modes.
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Superradiant Interactions for Relic Detection with Entangled Nuclear Spins
A squeezing protocol is proposed for nuclear spin ensembles coupled to superconducting circuits to achieve up to 48 dB squeezing and enhance superradiant interactions for relic detection.
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Self-Ordered Supersolid in Spinor Condensates with Cavity-Mediated Spin-Momentum-Mixing Interactions
Proposes cavity-mediated spin-momentum-mixing to create self-ordered supersolid phases in spinor condensates, modeled by the two-component Tavis-Cummings Hamiltonian, with undamped gapless Goldstone modes.