Plasmon Excitations for a Coulomb-coupled Graphene Layer and a Thick Conductor

Godfrey Gumbs; Andrii Iurov; Norman Horing

Plasmon Excitations for a Coulomb-coupled Graphene Layer and a Thick Conductor

POSTER

Abstract

Self-consistent field theory is used to obtain the plasmon dispersion relation of monolayer graphene which is Coulomb coupled to a thick conductor. We calculate numerically the undamped plasmon excitation spectrum for arbitrary wave number. For gapped graphene, both the low-frequency (acoustic) and high frequency (surface) plasmons may lie within the opening within the particle-hole region. Additionally, we obtain plasmon excitations in a region of the frequency-wave vector space which does not exist for free standing gapped graphene.

Authors

Godfrey Gumbs
- Hunter College of the City University of New York
- Hunter College, CUNY and Donostia International Physics Center (DIPC)
- Hunter College, CUNY
- Hunter College, CUNY and Donostia International Physics Center (DIPC),
- Hunter College, CUNY, NY
- Hunter College, City University of New York
Andrii Iurov
- University of New Mexico and Hunter College, CUNY
- University of New Mexico and Hunter college, CUNY
Norman Horing
- Stevens Institute of Technology