Graphene as gain medium for broadband lasers
Journal article, 2015
Efficient nonradiative carrier recombination strongly counteracts the appearance of optical gain in graphene. Based on a microscopic and fully quantum-mechanical study of the coupled carrier, phonon, and photon dynamics in graphene, we present a strategy to obtain a long-lived gain: Integrating graphene into a high quality photonic crystal nanocavity and applying a high-dielectric substrate suppresses the nonradiative recombination channels and gives rise to pronounced coherent light emission. This suggests the design of graphene-based laser devices covering a broad spectral range.
nanocavity
Physics
photonic crystal
carrier multiplication
light-matter interaction
photodetector
Author
Roland Jago
Chalmers, Applied Physics, Condensed Matter Theory
T. Winzer
Technische Universität Berlin
A. Knorr
Technische Universität Berlin
Ermin Malic
Chalmers, Applied Physics, Condensed Matter Theory
Physical Review B - Condensed Matter and Materials Physics
24699950 (ISSN) 24699969 (eISSN)
Vol. 92 8 085407Graphene-Based Revolutions in ICT And Beyond (Graphene Flagship)
European Commission (EC) (EC/FP7/604391), 2013-10-01 -- 2016-03-31.
Areas of Advance
Nanoscience and Nanotechnology
Subject Categories
Nano Technology
DOI
10.1103/PhysRevB.92.085407