A qudit-native framework for discrete time crystals reveals multilevel dynamical mechanisms that stabilize higher-order subharmonic responses and enable concurrent 2T/3T phases in spin-1, spin-3/2, and spin-2 systems.
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A laser-based scheme generates a nonlinear phonon mode in trapped ions that undergoes Hopf bifurcation to a stable limit cycle, realizing a phonon time crystal.
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A Qudit-native Framework for Discrete Time Crystals
A qudit-native framework for discrete time crystals reveals multilevel dynamical mechanisms that stabilize higher-order subharmonic responses and enable concurrent 2T/3T phases in spin-1, spin-3/2, and spin-2 systems.
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Time Crystal in the Nonlinear Phonon Mode of the Trapped Ions
A laser-based scheme generates a nonlinear phonon mode in trapped ions that undergoes Hopf bifurcation to a stable limit cycle, realizing a phonon time crystal.