Archivio Istituzionale della RicercaIn this paper we investigate, both theoretically and experimentally, nonequilibrium electron and phonon effects in quantum-cascade devices. In particular, we have developed a Monte Carlo-based global kinetic approach describing the complete interacting electronic subsystem (i.e., the full set of active-region and injector subbands) coupled to out-of-equilibrium longitudinal polar-optical (LO) phonons, which in turn will decay anharmonically into thermalized acoustic modes. Simulated results obtained for a prototypical terahertz emitting device show a very good agreement with measured data, evidencing how the nonequilibrium LO phonon population affects the electro-optical device performances. The latter may be qualitatively reproduced in terms of a global effective temperature of the heated phononic system.
Impact of nonequilibrium phonons on the electron dynamics in terahertz quantum cascade lasers / Iotti, Rita Claudia; Rossi, Fausto; Vitiello, M. S.; Scamarcio, G.; Mahler, L.; Tredicucci, A.. - In: APPLIED PHYSICS LETTERS. - ISSN 0003-6951. - 97:3(2010), pp. 033110-1-033110-3. [10.1063/1.3464977]
Impact of nonequilibrium phonons on the electron dynamics in terahertz quantum cascade lasers
IOTTI, Rita Claudia;ROSSI, FAUSTO;
2010
Abstract
In this paper we investigate, both theoretically and experimentally, nonequilibrium electron and phonon effects in quantum-cascade devices. In particular, we have developed a Monte Carlo-based global kinetic approach describing the complete interacting electronic subsystem (i.e., the full set of active-region and injector subbands) coupled to out-of-equilibrium longitudinal polar-optical (LO) phonons, which in turn will decay anharmonically into thermalized acoustic modes. Simulated results obtained for a prototypical terahertz emitting device show a very good agreement with measured data, evidencing how the nonequilibrium LO phonon population affects the electro-optical device performances. The latter may be qualitatively reproduced in terms of a global effective temperature of the heated phononic system.
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https://hdl.handle.net/11583/2375625
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