Discrete self-adjointness and quantum dynamics. Travel times

We use a discrete derivative to introduce a time operator for non-relativistic quantum systems with point spectrum. The symmetry requirement on the time operator leads to well-defined time values related to the dynamics of discrete quantum systems. As an illustration, we find travel times between hits with the walls for the quantum particle in a box model. These times suggest a classical analog of time eigenstates. We also briefly consider the Woods-Saxon potential and propose classical analogs for it.

Automated summary

In this paper, a discrete derivative is used to introduce a time operator for non-relativistic quantum systems with point spectrum. The symmetry requirement on the time operator leads to well-defined time values related to the dynamics of discrete quantum systems. Travel times between hits with the walls for the quantum particle in a box model are found, suggesting a classical analog of time eigenstates, and classical analogs for the Woods-Saxon potential are also proposed.