Andreas C. Cangellaris, Karen M. Coperich, et al.
EMC 2001
We explore the relaxation of photoexcited graphene by solving a transient Boltzmann transport equation with electron-phonon (e-ph) and electron-electron (e-e) scattering. Simulations show that when the excited carriers are relaxed by e-ph scattering only, a population inversion can be achieved at energies determined by the photon energy. However, e-e scattering quickly thermalizes the carrier energy distributions washing out the negative optical conductivity peaks. The relaxation rates and carrier multiplication effects are presented as a function of photon energy, graphene doping, and dielectric constant. © 2011 American Physical Society.
Andreas C. Cangellaris, Karen M. Coperich, et al.
EMC 2001
Shiyi Chen, Daniel Martínez, et al.
Physics of Fluids
R.J. Gambino, N.R. Stemple, et al.
Journal of Physics and Chemistry of Solids
R. Ghez, J.S. Lew
Journal of Crystal Growth