A self-adjoint arrival time operator inspired by measurement models
Abstract
We introduce an arrival time operator which is self-adjoint and, unlike previously proposed arrival time operators, has a close link to simple measurement models. Its spectrum leads to an arrival time distribution which is a variant of the Kijowski distribution (a re-ordering of the current) in the large momentum regime but is proportional to the kinetic energy density in the small momentum regime, in agreement with measurement models. A brief derivation of the latter distribution is given. We make some simple observations about the physical reasons for self-adjointness, or its absence, in arrival time operators and in the momentum operator on the half-line and we also compare our operator with the dwell time operator.
Cite
@article{arxiv.1504.02509,
title = {A self-adjoint arrival time operator inspired by measurement models},
author = {J. J. Halliwell and J. Evaeus and J. London and Y. Malik},
journal= {arXiv preprint arXiv:1504.02509},
year = {2016}
}
Comments
20 pages, Latex. Imperial College preprint. Substantially expanded