Coupling a transmon to a multimode acoustic resonator achieves qubit reset with residual excited-state population below 10^{-4}.
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Experimental measurement of ultralow excited-state populations in an HBAR enables new constraints on high-frequency gravitational waves, dark matter, and wavefunction collapse models.
A tunable chain of Rydberg atoms in tweezers mediates both coherent and dissipative entanglement between two distant micro-electromechanical oscillators.
citing papers explorer
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High-Fidelity Transmon Reset with a Multimode Acoustic Resonator
Coupling a transmon to a multimode acoustic resonator achieves qubit reset with residual excited-state population below 10^{-4}.
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Ultracold Mechanical Quantum Sensor for Tests of New Physics
Experimental measurement of ultralow excited-state populations in an HBAR enables new constraints on high-frequency gravitational waves, dark matter, and wavefunction collapse models.
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Entanglement of mechanical oscillators mediated by a Rydberg tweezer chain
A tunable chain of Rydberg atoms in tweezers mediates both coherent and dissipative entanglement between two distant micro-electromechanical oscillators.