Accession Number:

ADA429637

Title:

Zero-Bias Offsets in the Low-Temperature Dark Current of Quantum-Well Infrared Photodetectors

Descriptive Note:

Journal article

Corporate Author:

AIR FORCE RESEARCH LAB KIRTLAND AFB NMSPACE VEHICLES DIRECTORATE

Personal Author(s):

Report Date:

1999-08-01

Pagination or Media Count:

10.0

Abstract:

Quantum-well infrared photodetectors QWIPs have potential applicability in many remote-sensing applications, even in the space environment where low background fluxes are involved. In this environment, the detector arrays may need to be operated at temperatures lower then 77 K. At these temperatures, tunneling mechanisms such as Fowler-Nordheim and trap-assisted tunneling could dominate the dark current. The device resistance, which is bias-dependent, increases by several orders of magnitude at these temperatures and may pose a problem. The author have seen offsets in the current-versus-voltage I-V characteristics nonzero current at zero bias not associated with dopant migration which could impair the compatibility of a QWIP array with a readout circuit. They propose that these offsets are due to an RC time-constant effect. They further propose that the resistance in this time constant is due to tunneling mechanisms and not due to contact resistance, which in turn are structure- and bias-dependent. They discuss their observations and present a circuit model of a QWIP that explains these observations nearly completely.

Subject Categories:

  • Electrical and Electronic Equipment
  • Electricity and Magnetism
  • Quantum Theory and Relativity
  • Solid State Physics

Distribution Statement:

APPROVED FOR PUBLIC RELEASE