Non-adiabatic transitions in a massless scalar field

TL;DR

This paper investigates the dynamics of a massless scalar field with time-dependent sources, highlighting differences between adiabatic approximation errors and non-adiabatic transitions in gapless systems, and constructing super-adiabatic approximations.

Contribution

It demonstrates how to distinguish between adiabatic errors and non-adiabatic transitions in a gapless system and develops super-adiabatic approximations for such systems.

Findings

Non-adiabatic transitions correspond to boson emission.

Adiabatic approximation error is dominated by ground state deformation.

Constructed super-adiabatic approximations for gapless systems.

Abstract

We consider the dynamics of a massless scalar field with time-dependent sources in the adiabatic limit. This is an example of an adiabatic problem without spectral gap. The main goal of our paper is to illustrate the difference between the error of the adiabatic approximation and the concept of non-adiabatic transitions for gapless systems. In our example the non-adiabatic transitions correspond to emission of free bosons, while the error of the adiabatic approximation is dominated by a velocity-dependent deformation of the ground state of the field. In order to capture these concepts precisely, we show how to construct super-adiabatic approximations for a gapless system.