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Nonequilibrium phonon effects in midinfrared quantum cascade lasers

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arxiv 1607.07943 v1 pith:KKQWCIYP submitted 2016-07-27 cond-mat.mes-hall

Nonequilibrium phonon effects in midinfrared quantum cascade lasers

classification cond-mat.mes-hall
keywords nonequilibriumphononeffectselectronphononstemperaturesabsorptioncascade
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We investigate the effects of nonequilibrium phonon dynamics on the operation of a GaAs-based midinfrared quantum cascade laser over a range of temperatures (77--300 K) via a coupled ensemble Monte Carlo simulation of electron and optical-phonon systems. Nonequilibrium phonon effects are shown to be important below 200 K. At low temperatures, nonequilibrium phonons enhance injection selectivity and efficiency by drastically increasing the rate of interstage electron scattering from the lowest injector state to the next-stage upper lasing level via optical-phonon absorption. As a result, the current density and modal gain at a given field are higher and the threshold current density lower and considerably closer to experiment than results obtained with thermal phonons. By amplifying phonon absorption, nonequilibrium phonons also hinder electron energy relaxation and lead to elevated electronic temperatures.

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