Coated semiconductor devices for neutron detection
First Claim
1. Apparatus for detecting neutrons comprising:
- a semiconductor substrate having first and second opposed surfaces;
a layered metal arrangement disposed on the first surface of said semiconductor substrate and forming a rectifying junction;
a low resistivity contact layer disposed on the second opposed surface of said semiconductor substrate;
a voltage source connected between said layered metal arrangement and said low resistivity contact layer for reverse-biasing said rectifying junction; and
a thin neutron responsive layer disposed on said low resistivity contact layer and responsive to energetic neutrons incident thereon for providing positive charged particles to said semiconductor substrate where said thin neutron layer is comprised of a hydrogen-rich polymer and where said polymer is an alkane hydrocarbon or an alkane hydrocarbon.
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Accused Products
Abstract
A device for detecting neutrons includes a semi-insulated bulk semiconductor substrate having opposed polished surfaces. A blocking Schottky contact comprised of a series of metals such as Ti, Pt, Au, Ge, Pd, and Ni is formed on a first polished surface of the semiconductor substrate, while a low resistivity (“ohmic”) contact comprised of metals such as Au, Ge, and Ni is formed on a second, opposed polished surface of the substrate. In one embodiment, n-type low resistivity pinout contacts comprised of an Au/Ge based eutectic alloy or multi-layered Pd/Ge/Ti/Au are also formed on the opposed polished surfaces and in contact with the Schottky and ohmic contacts. Disposed on the Schottky contact is a neutron reactive film, or coating, for detecting neutrons. The coating is comprised of a hydrogen rich polymer, such as a polyolefin or paraffin; lithium or lithium fluoride; or a heavy metal fissionable material. By varying the coating thickness and electrical settings, neutrons at specific energies can be detected. The coated neutron detector is capable of performing real-time neutron radiography in high gamma fields, digital fast neutron radiography, fissile material identification, and basic neutron detection particularly in high radiation fields.
85 Citations
6 Claims
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1. Apparatus for detecting neutrons comprising:
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a semiconductor substrate having first and second opposed surfaces;
a layered metal arrangement disposed on the first surface of said semiconductor substrate and forming a rectifying junction;
a low resistivity contact layer disposed on the second opposed surface of said semiconductor substrate;
a voltage source connected between said layered metal arrangement and said low resistivity contact layer for reverse-biasing said rectifying junction; and
a thin neutron responsive layer disposed on said low resistivity contact layer and responsive to energetic neutrons incident thereon for providing positive charged particles to said semiconductor substrate where said thin neutron layer is comprised of a hydrogen-rich polymer and where said polymer is an alkane hydrocarbon or an alkane hydrocarbon. - View Dependent Claims (2, 3)
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4. Apparatus for detecting neutrons comprising:
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a semiconductor substrate having first and second opposed surfaces;
a layered metal arrangement disposed on the first surface of said semiconductor substrate and forming a rectifying junction;
a low resistivity contact layer disposed on the second opposed surface of said semiconductor substrate;
a voltage source connected between said layered metal arrangement and said low resistivity contact layer for reverse-biasing said rectifying junction; and
a thin neutron responsive layer having a specified thickness and disposed on said low resistivity contact layer and responsive to energetic neutrons incident thereon for providing positive charged particles to said semiconductor substrate where said thin neutron layer is comprised of a hydrogen-rich polymer and where said polymer is an alkane hydrocarbon or an alkane hydrocarbon. - View Dependent Claims (5, 6)
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Specification