Tight Upper Bound Of The Maximum Speed Of Evolution Of A Quantum State
Abstract
I report a tight upper bound of the maximum speed of evolution from one quantum state to another ' with fidelity F(,') less than or equal to an arbitrary but fixed value under the action of a time-independent Hamiltonian. Since the bound is directly proportional to the average absolute deviation from the median of the energy of the state DE, one may interpret DE as a meaningful measure of the maximum information processing capability of a system.
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