Quasiperiodic driving of a disordered non-interacting spin-1/2 chain produces prethermal time quasicrystalline order with robust incommensurate frequency peaks, sublinear entanglement growth, and a prethermal plateau that lengthens at higher drive frequencies.
Zu, arXiv preprint arXiv:2403.17842 (2024)
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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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Emergence of prethermal time quasicrystalline order in a quasiperiodically driven non-interacting spin chain
Quasiperiodic driving of a disordered non-interacting spin-1/2 chain produces prethermal time quasicrystalline order with robust incommensurate frequency peaks, sublinear entanglement growth, and a prethermal plateau that lengthens at higher drive frequencies.
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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.