Progress towards intersubband quantum-box lasers for highly efficient continuous wave operation in the mid-infrared

Progress towards intersubband quantum-box lasers for highly efficient continuous wave operation in the mid-infrared

Intersubband Quantum-Box (IQB) lasers; that is, devices consisting of 2-D arrays of ministacks (i.e., 2-4 stages) intersubband QB emitters are proposed, as an alternative to 30-stage quantum-cascade (QC) devices, as sources for efficient room-temperature (RT) emission in the mid-infrared (4-6 µm) w...

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Bibliographic Details
Main Authors: Plant, Jason J., Turner, George W., Meyer, Jerry R., Vurgaftman, Igor, Kuech, Thomas F., Mawst, Luke J., Kirch, Jeremy, Shin, Jae C., Rathi, Manish K., D'Souza, Mithun, Tsvid, Gene, Botez, Dan
Other Authors: Lincoln Laboratory
Format: Article
Language:en_US
Published: Society of Photo-Optical Instrumentation Engineers 2010
Online Access:http://hdl.handle.net/1721.1/52578
Description
Summary:Intersubband Quantum-Box (IQB) lasers; that is, devices consisting of 2-D arrays of ministacks (i.e., 2-4 stages) intersubband QB emitters are proposed, as an alternative to 30-stage quantum-cascade (QC) devices, as sources for efficient room-temperature (RT) emission in the mid-infrared (4-6 µm) wavelength range. Preliminary results include: 1) the design of devices for operation with 50% wallplug efficiency at RT; 2) realization of a novel type of QC device: the deep-well (DW) QC laser, that has demonstrated at lambda =4.7µm low temperature sensitivity of the threshold current, a clear indication of suppressed carrier leakage; 3) the formation of 2-D arrays at nanopoles by employing nanopatterning and dry etching; 4) the formation of 40nm-diameter, one-stage IQB structures on 100nm centers by preferential regrowth via metal-organic vapor phase epitaxy (MOVPE).

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