Temporal nonlocality robustness TNR of a qudit resides entirely in the input state and certifies temporal teleportation up to the limit (d-1)/d.
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An exact path integral for finite-dimensional quantum mechanics in discrete phase space is derived, showing that full entanglement dynamics in qutrits requires all fluctuation sectors beyond mean-field.
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Temporal nonlocality of a qudit resides in the input state, not the channel, and certifies temporal teleportation up to a fundamental limit
Temporal nonlocality robustness TNR of a qudit resides entirely in the input state and certifies temporal teleportation up to the limit (d-1)/d.
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Path integral formulation of finite-dimensional quantum mechanics in discrete phase space
An exact path integral for finite-dimensional quantum mechanics in discrete phase space is derived, showing that full entanglement dynamics in qutrits requires all fluctuation sectors beyond mean-field.