Exact results, transient generalized Gibbs ensembles, and analytic approximations for spacetime propagators of massive, real scalar fields in one spatial dimension

TL;DR

This paper provides a comprehensive analysis of the spacetime propagators of the massive, real scalar Klein-Gordon field in one dimension, including exact results, analytic extensions, thermal effects, and an approximation scheme.

Contribution

It offers new insights into the analytic structure, regularization, thermal extensions, and a simple approximation scheme for the propagators of the Klein-Gordon field.

Findings

Regularization of lightcone singularities compatible with analyticity.

Extension of propagator analysis to nonzero temperatures.

Elementary-function-based approximation capturing mass dependence.

Abstract

The massive, real scalar field described by the Klein-Gordon equation in one spatial dimension is the most elementary example of a bosonic quantum field theory. It has been investigated for many decades either as a simple academic theory or as a realistic emergent many-body theory in low-dimensional systems. Despite this, the space and time behavior of its propagators have rarely been in the foreground, and although exact results are known, there remain gaps in the description and a lack of an in-depth physical analysis. The aim of this paper is to address the deficits by providing a comprehensive discussion of the results, and to show that this old theory still allows for several new results and insights. To start, we review the known results by providing a rederivation in full detail, to which we add a discussion on how exactly space and time variables need to be extended to complex values to ensure analyticity throughout spacetime. This procedure shows also how singularities on the lightcone need to be regularized to remain compatible with the analyticity and the physical limit of a vanishing mass. An extension to nonzero temperatures is provided by considering the contact of the field to a nonrelativistic thermal reservoir, such as is necessary for emerging field theories in condensed matter systems. Subsequently, it is shown that the transient, short spacetime propagation can be understood in the context of the modern development of a generalized Gibbs ensemble, which describes a massless theory with an effective temperature that is set by the Klein-Gordon mass and the physical temperature. Finally, an approximation scheme is presented that captures the non-trivial mass dependence of the propagators throughout all spacetime but involves only elementary functions.