Dennis Norton scite author profile

InAs/GaSb type-II superlattice light-emitting diodes were fabricated to form a device that provides emission over the entire 3–5 μm mid-infrared transmission window. Variable bandgap emission regions were coupled together using tunnel junctions to emit at peak wavelengths of 3.3 μm, 3.5 μm, 3.7 μm, 3.9 μm, 4.1 μm, 4.4 μm, 4.7 μm, and 5.0 μm. Cascading the structure recycles the electrons in each emission region to emit several wavelengths simultaneously. At high current densities, the light-emitting diode spectra broadened into a continuous, broadband spectrum that covered the entire mid-infrared band. When cooled to 77 K, radiances of over 1 W/cm2 sr were achieved, demonstrating apparent temperatures above 1000 K over the 3–5 μm band. InAs/GaSb type-II superlattices are capable of emitting from 3 μm to 30 μm, and the device design can be expanded to include longer emission wavelengths.

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512$\,\times\,$512 Individually Addressable MWIR LED Arrays Based on Type-II InAs/GaSb Superlattices

Norton

Olesberg

McGee

et al. 2013

IEEE J. Quantum Electron.

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Causes and elimination of pyramidal defects in GaSb-based epitaxial layers

Murray

Yildirim

Provence

et al. 2013

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Dennis Norton

Cascaded Superlattice InAs/GaSb Light-Emitting Diodes for Operation in the Long-Wave Infrared

Optimization of MBE-grown GaSb buffer layers and surface effects of antimony stabilization flux

Broadband mid-infrared superlattice light-emitting diodes

512$\,\times\,$512 Individually Addressable MWIR LED Arrays Based on Type-II InAs/GaSb Superlattices

Causes and elimination of pyramidal defects in GaSb-based epitaxial layers

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