Numerical evaluation of energy loss rate for hot carriers in quantum wells

Articles you may be interested inElectron-confined longitudinal optical phonon interaction and strong magnetic field effects on the binding energy in GaAs quantum wells Analysis of the scattering of electrons by special vibrational modes in a GaAs quantum well with a thin AlAs middle barrier: Mobility modulated by a transversal electric field Hot carrier dynamics in a (GaInSb/InAs)/GaInAlAsSb superlattice multiple quantum well measured with mid-wave infrared, subpicosecond photoluminescence upconversion Using the Huang-Zhu model ͓K. Huang and B.-F. Zhu, Phys. Rev. B 38, 13377 ͑1988͔͒ for the optical phonons and associated carrier-phonon interactions in semiconductor superlattices, the effects of longitudinal electric field on the energy-loss rates ͑ELRs͒ of hot carriers as well as on the hot-phonon effect ͑HPE͒ in GaAs/ AlAs quantum wells ͑QWs͒ are studied systematically. Contributions of various bulklike and interface phonons to the hot-carrier relaxation are compared in detail, and comprehensively analyzed in relation to the intrasubband and intersubband scatterings for quantum cascade lasers. Due to the broken parity of the electron ͑hole͒ states in the electric field, the bulklike modes with antisymmetric potentials are allowed in the intrasubband relaxation processes, as well as the modes with symmetric potentials. As the interface phonon scattering is strong only in narrow wells, in which the electric field affects the electron ͑hole͒ states little, the ELRs of hot carriers through the interface phonon scattering are not sensitive to the electric field. The HPE on the hot-carrier relaxation process in the medium and wide wells is reduced by the electric field. The influence of the electric field on the hot-phonon effect in quantum cascade lasers is negligible. When the HPE is ignored, the ELRs of hot electrons in wide QWs are decreased noticeably by the electric field, but slightly increased by the field when considering the HPE. In contrast with the electrons, the ELRs of hot holes in wide wells are increased by the field, irrespective of the HPE.

show abstract

Influence of longitudinal electric field on the hot-phonon effect in quantum wells

Zhang

Zhu

2006

Journal of Applied Physics

Self Cite

View full text Add to dashboard Cite

show abstract

Comparison of cooling rates for hot carriers in GaAs/AlAs quantum wells based on macroscopic and microscopic phonon models

1999

View full text Add to dashboard Cite

By using three analytical phonon models in quantum wells-the slab model, the guided-mode model, and the improved version of the Huang-Zhu model ͓Phys. Rev. B 38, 13 377 ͑1998͔͒, -and the phonon modes in bulk, the energy-loss rates of hot carriers due to the Fröhlich potential scattering in GaAs/AlAs multiple quantum wells ͑MQW's͒ are calculated and compared to those obtained based on a microscopic dipole superlattice model. In the study, a special emphasis is put on the effects of the phonon models on the hot-carrier relaxation process when taking the hot-phonon effect into account. Our numerical results show that, the calculated energy-loss rates based on the slab model and on the improved Huang-Zhu model are almost the same when ignoring the hot-phonon effect; however, with the hot phonon effect considered, the calculated cooling rate as well as the hot phonon occupation number do depend upon the phonon models to be adopted. Out of the four analytical phonon models investigated, the improved Huang-Zhu model gives the results most close to the microscopic calculation, while the guided-mode model presents the poorest results. For hot electrons with a sheet density around 10 12 /cm 2 , the slab model has been found to overestimate the hot-phonon effect by more than 40% compared to the Huang-Zhu model, and about 75% compared to the microscopic calculation in which the phonon dispersion is fully included. Our calculation also indicates that Nash's improved version ͓J. Lumin. 44, 315 ͑1989͔͒ is necessary for evaluating the energy-loss rates in quantum wells of wider well width, because Huang-Zhu's original analytical formulas are only approximately orthogonal for optical phonons associated with small in-plane wave numbers. ͓S0163-1829͑99͒08919-5͔

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Numerical evaluation of energy loss rate for hot carriers in quantum wells

Cited by 2 publications

References 4 publications

Influence of longitudinal electric field on the hot-phonon effect in quantum wells

Influence of longitudinal electric field on the hot-phonon effect in quantum wells

Comparison of cooling rates for hot carriers in GaAs/AlAs quantum wells based on macroscopic and microscopic phonon models

Contact Info

Product

Resources

About