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Quantum clock and Newtonian time

Published 2 Feb 2026 in quant-ph, gr-qc, and math-ph | (2602.02077v1)

Abstract: An extension of standard quantum mechanics is proposed in which the Newtonian time parameter appearing in the unitary evolution operator is replaced with the time shown by a `quantum clock'. A quantum clock is defined by the following properties: (a) the time that the clock shows is non-decreasing, (b) the clock ticks at random with random tick sizes, and (c) on average the clock shows the Newtonian time. We show that the leading term in the evolution equation for the density matrix associated with any quantum clock model gives the von Neumann equation. Modifications to the von Neumann equation are worked out in detail in a parametric family of examples for which the tick sizes have a gamma distribution. The leading correction to the von Neumann equation is given by the Lindblad equation generated by the Hamiltonian, but there are higher-order terms that generalize the von Neumann equation and the Lindblad equation. Lower bounds on the parameters of these quantum clock models are derived by use of the precision limit of an atomic clock.

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