Quantum Energies of Interfaces

N. Graham; R. L. Jaffe; M. Quandt; and H. Weigel

arXiv:hep-th/0103010·hep-th·November 7, 2009

Quantum Energies of Interfaces

N. Graham, R. L. Jaffe, M. Quandt, and H. Weigel

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TL;DR

This paper introduces a method to calculate the quantum energies of symmetrical interfaces of any dimension using scattering data, establishing sum rules that connect phase shifts to bound states for consistency.

Contribution

It provides a novel approach for computing one-loop quantum energies of interfaces based on scattering data and finite-energy sum rules.

Findings

01

Method successfully computes quantum energies of interfaces.

02

Finite-energy sum rules relate phase shifts to bound states.

03

Applicable to interfaces of arbitrary dimension and codimension.

Abstract

We present a method for computing the one-loop, renormalized quantum energies of symmetrical interfaces of arbitrary dimension and codimension using elementary scattering data. Internal consistency requires finite-energy sum rules relating phase shifts to bound state energies.

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