Floquet engineering of nonreciprocal light-induced dipolar interactions in tweezer arrays realizes beamsplitter, squeezing operations, negative-mass-like signatures, and tunable complex eigenfrequencies.
Progress in quantum metrology and applications for optical atomic clocks
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Protocols for generating quantum resources can simultaneously charge quantum batteries with a collective advantage, enabling dual-use superconducting hardware for sensing or energy storage.
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Floquet engineering of nonreciprocal light-induced dipolar interactions
Floquet engineering of nonreciprocal light-induced dipolar interactions in tweezer arrays realizes beamsplitter, squeezing operations, negative-mass-like signatures, and tunable complex eigenfrequencies.
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Dual-use quantum hardware for quantum resource generation and energy storage
Protocols for generating quantum resources can simultaneously charge quantum batteries with a collective advantage, enabling dual-use superconducting hardware for sensing or energy storage.