Adiabatically driven electron dynamics in a resonant photonic band gap: Optical switching of a Bragg periodic semiconductor

M. Schaarschmidt,Jens Förstner,A. Knorr,J. P. Prineas,Nils C. Nielsen,J. Kuhl,Galina Khitrova,H. M. Gibbs,Harald Giessen,Stephan W Koch

Adiabatically driven electron dynamics in a resonant photonic band gap: Optical switching of a Bragg periodic semiconductor

2004

M. Schaarschmidt
Jens Förstner
A. Knorr
J. P. Prineas
Nils C. Nielsen
J. Kuhl
Galina Khitrova
H. M. Gibbs
Harald Giessen
Stephan W Koch

The adiabatic driving of the resonant electron dynamics in a one-dimensional resonant photonic band gap is proposed as an optical mechanism for nonlinear ultrafast switching. Pulsed excitation inside the photonic gap results in an ultrafast suppression and recovery of the gap. This behavior results from the adiabatic carrier dynamics due to rapid radiative damping inside the band gap.

Keywords:

Ultrashort pulse
Nuclear magnetic resonance
Direct and indirect band gaps
Photonics
Band gap
Photonic crystal
Condensed matter physics
Semiconductor
Quantum well
Optical switch
Physics
Adiabatic process

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