Semi-insulating InP:Fe growth by hydride vapor phase epitaxy for advanced buried heterostructure quantum cascade lasers

Authors :: Strömberg, Axel
Manavaimaran, Balaji
Pang, Xiaodan
Schatz, Richard
Ozolins, Oskars
Lourdudoss, Sebastian
Stark, David
Beck, Mattias
Scalari, Giacomo
Faist, Jerome
Ryu, Jae Ha
Mawst, Luke
Botez, Dan
Marsland, Robert
Maisons, Gregory
Carras, Mathieu
Sun, Yan-Ting
Strömberg, Axel
Manavaimaran, Balaji
Pang, Xiaodan
Schatz, Richard
Ozolins, Oskars
Lourdudoss, Sebastian
Stark, David
Beck, Mattias
Scalari, Giacomo
Faist, Jerome
Ryu, Jae Ha
Mawst, Luke
Botez, Dan
Marsland, Robert
Maisons, Gregory
Carras, Mathieu
Sun, Yan-Ting
Publication Year :: 2023
Abstract: Buried heterostructure quantum cascade lasers (BH-QCLs) operating at high temperature in mid-infrared (MIR) to THz spectral range are desired for chemical sensing and free-space optical communication (FOC). In this work, Fe doped semi-insulating InP (SI-InP) regrowth is demonstrated in a hydride vapor phase epitaxy (HVPE) reactor for advanced MIR and THz BH-QCLs grown by MBE and MOCVD. SI-InP regrowth is implemented in THz QCL pillar arrays and narrow width and reverse-taper MIR BH-QCLs for efficient heat dissipation. By exploiting SI-InP regrowth, the parasitic capacitance in MIR distributed feedback BH-QCL can be suppressed, which is exploited for high speed FOC application.<br />Part of ISBN 9781510659858QC 20231030

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