Infrared Response of Impurity Doped Silicon MOSFET's (IRFET'S)

Abstract

Operation and characteristics of the impurity doped infrared sensing MOSFET (IRFET) are described. Responsivities of over 1000 amps/joule have been observed with only small channel width to length ratios and large area devices. Much higher responsivities would be possible with smaller area devices. In the case of indium- and gallium-doped devices it has been shown that quantum efficiencies in the range 1.0 to 10.0% can be achieved by using substrates with low boron dopings. The infrared sensing MOSFET(IRFET) is a detector, integrating element, and amplifier all combined in one device structure. As such it is distinctly different than other types of infrared detectors and possesses many very unique characteristics. When compared to charged coupled device scanned photoconductors two of these are: the responsivity of the IRFET and uniformity of responsivity do not depend upon carrier life-time and residual impurity concentrations; and (2) the IRFET has a nondestructive D.C. or static memory type readout as opposed to the A.C. or dynamic memory type of CCD's. This report describes in detail the experimental results obtained on gold-, indium-, and gallium-doped devices for use in the near, middle, and far infrared wave length regions respectively. Equations describing the operation of the devices have been compared to the observed thermal and optical response characteristics.

Document Details

Document Type

Technical Report

Publication Date

Aug 01, 1976

Accession Number

ADA139192

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