Dirac-graphene in slow-light

P.A. Golovinski; V.A. Astapenko; A.V. Yakovets

arXiv:1607.04476·physics.optics·July 18, 2016

Dirac-graphene in slow-light

P.A. Golovinski, V.A. Astapenko, A.V. Yakovets

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Open Access

TL;DR

This paper presents exact solutions for wave functions and Green functions in slow light pulses within graphene, aligning the group velocity with graphene's Fermi velocity, advancing understanding of light-matter interactions.

Contribution

It provides the first exact analytical solutions for wave and Green functions in slow light graphene systems, linking group velocity to Fermi velocity.

Findings

01

Exact wave function solutions for slow light in graphene

02

Green function solutions consistent with Fermi velocity

03

Enhanced understanding of light propagation in graphene

Abstract

We obtained exact solutions for the wave function and the Green function in the slow light pulse with the group velocity, consistent with the Fermi velocity in graphene.

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Taxonomy

TopicsQuantum optics and atomic interactions · Graphene research and applications · Quantum Information and Cryptography