Technologies
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WARF: P03350US

Type II Quantum Well Optoelectronic Devices That Exhibit High Performance in the Mid-Infrared Region


INVENTORS -

Luke Mawst, Jerry Meyer, Igor Vurgaftman, Nelson Tansu

The Wisconsin Alumni Research Foundation (WARF) is seeking commercial partners interested in developing an InP-based, type II quantum well laser device that exhibits high performance in the mid-infrared (2 to 5 micron) wavelength range.
OVERVIEWLasers that operate in the mid-infrared (2 to 5 micron) wavelength region are needed for a variety of applications, including laser-based radar, free-space optical links, chemical and gas sensing systems and infrared countermeasures against heat-seeking missiles that threaten both military and commercial aircraft. However, conventional InP-, InAs- and GaSb-based lasers that operate at long wavelengths have proven extremely temperature-sensitive, a characteristic that severely impacts their CW (continuous wave) performance.
THE INVENTIONUW-Madison researchers have developed an InP-based, type II quantum well laser device that exhibits high performance in the mid-infrared (2 to 5 micron) wavelength range. They designed a novel active region that includes electron quantum well layers composed of nitrogen-containing semiconductor materials, such as InAsN and InGaAsN. The active region also includes a hole quantum well layer composed of antimony-containing semiconductors, such as GaAsSb and InGaAsSb. By creating compressive strain in the hole quantum well layer alone, or by straining both the electron and hole quantum well layers, the researchers were able to generate laser light of the desired wavelengths.
APPLICATIONS
  • Many types of optoelectronic devices, including amplifiers, light-emitting diodes, and edge- and surface-emitting lasers that use optical feedback to provide lasing action
KEY BENEFITS
  • Unlike previous mid-infrared lasers, the laser of this invention exhibits high performance in the 2 to 5 micron wavelength at room temperature.
  • Active region structures can be deposited onto InP substrates, eliminating the need for antimonide processing, which is less mature than InP processing.
  • Since it is InP-based, this laser can be readily integrated with other optoelectronic devices on the same chip.
  • InP substrates enable optical pumping with a conventional, high-power, 980 nm pump laser, allowing for efficient and high-power optically-pumped mid-infrared sources.
  • Active region structures are suitable for low-cost commercial processing by MOCVD (metal organic chemical vapor deposition).
ADDITIONAL INFORMATION
For More Information About the Inventors
Contact Information
For current licensing status, please contact Jeanine Burmania at jeanine@warf.org or 608-960-9846.
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