Infrared Behaviour, sources and the Schwinger action principle

Mark Burgess

arXiv:hep-th/9405184·hep-th·February 3, 2008

Infrared Behaviour, sources and the Schwinger action principle

Mark Burgess

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TL;DR

This paper explores a dynamical analogy for the renormalization group to gain deeper insights into its structure, potentially impacting theoretical physics and quantum field theory.

Contribution

It introduces a novel dynamical analogy for the renormalization group, offering new perspectives on its underlying structure.

Findings

01

Provides a new conceptual framework for understanding the renormalization group

02

Offers insights into the mathematical structure of quantum field theories

03

Suggests potential applications in theoretical physics

Abstract

The paper describes a dynamical analogy for the renormalization group which leads to insights into its structure.

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Taxonomy

TopicsGeophysics and Sensor Technology · Optical Polarization and Ellipsometry · Spectroscopy and Laser Applications