Claims
- 1. A radiation detector, comprising:
- (a) an insulated gate over a layer of semiconductor material, said material with a first bandgap adjacent said gate and a second bandgap a depletion region depth from said gate, said first bandgap larger than said second bandgap, and said second bandgap of energy comparable to the energy of at least a portion of photons of radiation to be detected;
- (b) a potential source intermittently connected between said gate and said layer; and
- (c) a gate potential detector.
- 2. The detector of claim 1, wherein:
- (a) said semiconductor material is Hg.sub.1-x Cd.sub.x Te, with x=x.sub.1 from adjacent said gate to a first depth and with x=x.sub.2 from a first depth to a second depth.
- 3. The detector of claim 2, wherein:
- (a) x.sub.1 .apprxeq.0.27 and x.sub.2 .apprxeq.0.2.
- 4. The detector of claim 2, wherein:
- (a) x.sub.1 .apprxeq.0.3 and x.sub.2 .apprxeq.0.2.
- 5. The detector of claim 2, wherein:
- (a) said potential source has at least first and second potential levels, said levels characterized by said first potential level applied between said gate and said layer creates a depletion region extending to a depth less than or equal to said first depth and said second potential level applied between said gate and said layer creates a depletion region extending to a depth greater than said first depth.
- 6. The detector of claim 1, wherein:
- (a) said semiconductor material is Hg.sub.1-x Cd.sub.x Te, with x continuously decreasing from adjacent said gate to a first depth.
- 7. An infrared imager, comprising:
- (a) a plurality of pixels formed on a layer of semiconductor material, each of said pixels including:
- i. an insulated gate over said layer, said material with a first bandgap adjacent said gates and a second bandgap a depletion region depth from said gates, said first bandgap larger than said second bandgap, and said second bandgap of energy comparable to the energy of at least a portion of photons of infrared radiation to be detected;
- (b) a source of potential intermittently connected between each of said gates and said layer; and
- (c) a potential detector intermittently connected to each of said gates.
- 8. The imager of claim 7, wherein:
- (a) said semiconductor material is Hg.sub.1-x Cd.sub.x Te, with x=x.sub.1 from adjacent said gate to a first depth and with x=x.sub.2 from a first depth to a second depth.
- 9. The imager of claim 8, wherein:
- (a) x.sub.1 .apprxeq.0.27 and x.sub.2 .apprxeq.0.2.
- 10. The image of claim 8, wherein:
- (a) x.sub.1 .apprxeq.0.3 and x.sub.2 .apprxeq.0.2.
- 11. The imager of claim 8, wherein:
- (a) said potential source has at least first and second potential levels, said levels characterized by said first potential level applied between one of said gates and said layer creates a depletion region extending to a depth less than or equal to said first depth and said second potential level applied between said one gate and said layer creates a depletion region extending to a depth greater than said first depth.
- 12. The imager of claim 7, wherein:
- (a) said semiconductor material is Hg.sub.1-x Cd.sub.x Te, with x continuously decreasing from adjacent said gate to a first depth.
- 13. A method of detection of radiation, comprising the steps of:
- (a) providing a layer of semiconductor material with bandgap decreasing with depth and with a gate over said layer;
- (b) intermittently applying a potential between said gate and said layer; and
- (c) intermittently detecting the potential on said gate.
- 14. The method of claim 13, wherein:
- (a) said intermittently applied potential has first and second levels and thereby creates first and second depth depletion regions in said layer with second depth regions extending into smaller bandgap material than said first depth regions.
STATEMENT AS TO RIGHTS TO INVENTIONS MADE UNDER FEDERALLY SPONSORED RESEARCH AND DEVELOPMENT
The U.S. Government has a paid-up license in this invention and the right in limited circumstances to require the patent owner to license others on reasonable terms as provided for by the terms of DARPA Contract No. N00014-86-C-2389.
US Referenced Citations (6)