The quantum scale invariance in graphene-like quantum electrodynamics

O.M. Del Cima; D.H.T. Franco; L.S. Lima; E.S. Miranda

arXiv:2209.10611·hep-th·November 14, 2022

The quantum scale invariance in graphene-like quantum electrodynamics

O.M. Del Cima, D.H.T. Franco, L.S. Lima, E.S. Miranda

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TL;DR

This paper discusses how a specific quantum electrodynamics model exhibits scale invariance similar to that observed in graphene, due to its ultraviolet and infrared finiteness.

Contribution

It demonstrates the quantum scale invariance in a graphene-like quantum electrodynamics model, highlighting its finiteness properties.

Findings

01

Ultraviolet and infrared finiteness in the model

02

Mimics scale invariance observed in graphene

03

Provides insights into quantum electrodynamics behavior

Abstract

The ultraviolet and infrared finiteness of a parity-even massless planar quantum electrodynamics mimics the scale invariance in graphene.

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Taxonomy

TopicsGraphene research and applications · Plasmonic and Surface Plasmon Research · Quantum Electrodynamics and Casimir Effect