Novel SWIR Detectors and Imagers Approaching the Thermodynamic Detection Limit

Apr 9, 2015
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Photon detectors are now at the heart of many modern scientific, medical, industrial and security systems. These detectors, whether single-element or imaging arrays, are often the performance bottleneck in such systems. While cooled midwave- and longwave-infrared (MWIR and LWIR) detectors have reached the thermodynamic limit of sensitivity, achieving such performance has remained elusive at shorter wavelengths.

New research shows that devices based on electron injection might be able to approach the thermodynamic limit of sensitivity in shortwave-infrared (SWIR) detectors at relatively high temperatures. Because the energy of photons is significantly larger than the thermal energy in this region, non-cryogenic single-photon detectors with high detection efficiency and very low false detection rate seem feasible for the first time.

Presenter Dr. Hooman Mohseni is a professor of electrical engineering and computer sciences at Northwestern University. He is the recipient of several research and teaching award including the National Science Foundation’s CAREER Award, DARPA Young Faculty Award and Northwestern Faculty Honor Roll.

Mohseni serves on the editorial boards of IEEE Photonics, IEEE Selected Topics in Quantum Electronics, Optics Letter and Frontiers in Material. He has published more than 115 peer-reviewed articles in major journals including Nature, Nano Letters, and ACS Nano. He holds 14 issued U.S. and international patents. He is a fellow of SPIE and OSA.
SWIRdetectorsimagersthermodynamicelectron injectionsingle-photon detectornon-cryogenicMWIRLWIRphoton detectorsSensors & Detectorsindustrial
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