Archivio Istituzionale della RicercaVCSEL applications are continuously growing, especially in sensing. High-power, i.e., large area, and single-mode are contradictory requirements, tackled by mastering VCSEL temperature distribution (TD) and proper design. We present here a viable approach aimed at efficiently introducing TD in 3D simulations of optical modes.
Modeling self-heating in high-power non-circular VCSELs / Alasio, Matteo; Torrelli, V.; Albano, Simone.; Miri, L.; Gullino, Alberto; Goano, M.; Debernardi, Pierluigi. - ELETTRONICO. - (2024). (Intervento presentato al convegno 2024 IEEE Photonics Conference (IPC) tenutosi a Roma (Ita) nel 10-14 November 2024) [10.1109/ipc60965.2024.10799821].
Modeling self-heating in high-power non-circular VCSELs
Alasio, Matteo;Torrelli, V.;Miri, L.;Goano, M.;Debernardi, Pierluigi
2024
Abstract
VCSEL applications are continuously growing, especially in sensing. High-power, i.e., large area, and single-mode are contradictory requirements, tackled by mastering VCSEL temperature distribution (TD) and proper design. We present here a viable approach aimed at efficiently introducing TD in 3D simulations of optical modes.
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Modeling_self-heating_in_high-power_non-circular_VCSELs.pdf
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https://hdl.handle.net/11583/2996049