Archivio Istituzionale della RicercaCarrier transport in GaAs-based vertical-cavity surface-emitting lasers (VCSELs) is investigated by means of an in-house multiphysics code, with particular emphasis on the description of many-valley effects in the conduction band of AlGaAs barriers. These effects, which are revealed to have a significant impact on the overall VCSEL performance, are accounted for by an effective density of states obtained with a closed-form model. This description has been included in a simplified simulation framework, where most of the distributed Bragg reflector pairs are replaced by an equivalent homogeneous layer. This leads to a major reduction of the computational cost, especially important in view of the computer-aided design of 3D devices.
Many-valley electron transport in AlGaAs VCSELs / Calciati, Marco; Tibaldi, Alberto; Bertazzi, Francesco; Goano, Michele; Debernardi, Pierluigi. - In: SEMICONDUCTOR SCIENCE AND TECHNOLOGY. - ISSN 0268-1242. - STAMPA. - 32:5(2017), p. 055007. [10.1088/1361-6641/aa66bb]
Many-valley electron transport in AlGaAs VCSELs
CALCIATI, MARCO;TIBALDI, ALBERTO;BERTAZZI, FRANCESCO;GOANO, MICHELE;
2017
Abstract
Carrier transport in GaAs-based vertical-cavity surface-emitting lasers (VCSELs) is investigated by means of an in-house multiphysics code, with particular emphasis on the description of many-valley effects in the conduction band of AlGaAs barriers. These effects, which are revealed to have a significant impact on the overall VCSEL performance, are accounted for by an effective density of states obtained with a closed-form model. This description has been included in a simplified simulation framework, where most of the distributed Bragg reflector pairs are replaced by an equivalent homogeneous layer. This leads to a major reduction of the computational cost, especially important in view of the computer-aided design of 3D devices.
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20170309_Heterojunction.pdf
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https://hdl.handle.net/11583/2669051