Displacement operators: the classical face of their quantum phase

Amar C. Vutha, Eliot A. Bohr, Anthony Ransford, Wesley C. Campbell, Paul Hamilton

Published 2017-02-07Version 1

In quantum mechanics, the operator representing the composition of multiple, non-parallel displacements of a system's state in phase space differs from the product of the individual displacement operators by a phase factor. This composition phase is often either dismissed as unmeasurable or attributed to the nonzero commutator between quantum position and momentum operators, a fairly mathematical explanation that may leave some seeking more physical insight into why and when this phase should arise. We discuss the origins of the displacement operator's form and composition phase in classical wave and particle mechanics. A simple experiment for measuring this phase with classical waves is presented that highlights the underlying physical concept without invoking Planck's constant or quantum theory. We hope that these demonstrations will be of interest to instructors and students who are beginning to explore topics such as quantum optics and geometric phase gates in quantum information physics.