Prethermal discrete time crystals in driven dipolar 13C spins enable frequency-selective AC magnetic field sensing with up to three orders of magnitude lifetime extension via resonant response.
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UNVERDICTED 3representative citing papers
A driven Bose-Hubbard model with global density-density interactions induces tunable global kinetic constraints for efficient implementation of multi-body gates and entangled states.
Quasi-periodic driving of a four-level system creates temporal analogs of quantum spin Hall and higher-order topological insulators, yielding quantized energy exchange rates between drives due to synthetic edge or corner modes.
citing papers explorer
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Sensing with discrete time crystals
Prethermal discrete time crystals in driven dipolar 13C spins enable frequency-selective AC magnetic field sensing with up to three orders of magnitude lifetime extension via resonant response.
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Engineering long-range and multi-body interactions via global kinetic constraints
A driven Bose-Hubbard model with global density-density interactions induces tunable global kinetic constraints for efficient implementation of multi-body gates and entangled states.
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Topological energy pumping in a quasi-periodically driven four-level system
Quasi-periodic driving of a four-level system creates temporal analogs of quantum spin Hall and higher-order topological insulators, yielding quantized energy exchange rates between drives due to synthetic edge or corner modes.