Electron discharge device having a thermionic emission-reduction coating
First Claim
1. In an electron discharge device comprising an evacuated envelope having therein an alkali-antimonide photoemissive cathode, the improvement comprising a thermionic emission-reduction coating disposed on a portion of said envelope between said envelope and an overlying portion of said photoemissive cathode and alloying with the constituents thereof, thereby forming a layer having reduced thermionic emission wherein said thermionic emission-reduction coating is selected from the group consisting of indium and indium oxide.
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Accused Products
Abstract
An electron discharge device, such as a photomultiplier tube, has an evacuated envelope with an alkali-antimonide photoemissive cathode therein. A thermionic emission-reduction coating is disposed within the envelope. The coating alloys with the constituents of the photoemissive cathode to reduce thermionic emission. The thermionic emission reduction coating is formed preferably of indium; however, indium oxide may also be used.
7 Citations
6 Claims
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1. In an electron discharge device comprising an evacuated envelope having therein an alkali-antimonide photoemissive cathode, the improvement comprising a thermionic emission-reduction coating disposed on a portion of said envelope between said envelope and an overlying portion of said photoemissive cathode and alloying with the constituents thereof, thereby forming a layer having reduced thermionic emission wherein said thermionic emission-reduction coating is selected from the group consisting of indium and indium oxide.
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2. In a photomultiplier tube comprising an evacuated envelope having a faceplate and a sidewall, said faceplate and said sidewall each having an interior surface,
an alkali-antimonide photoemissive cathode on said interior surfaces of said faceplate and of said sidewall, and an electron multiplier assembly spaced from said photoemissive cathode on said faceplate, the improvement comprising a thermionic emission-reduction coating disposed on said interior surface of said sidewall alloyed with the alkali-antimonide constituents of said photoemissive cathode overlying said coating, thereby forming a layer having reduced thermionic emission wherein said thermionic emission-reduction coating is selected from the group consisting of indium and indium oxide.
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5. A method of making a photomultiplier tube having an evacuated envelope with a sidewall closed at one end by a faceplate including the steps of
providing a thermionic emission-reduction coating selected from the group consisting of indium and indium oxide on an interior surface of said sidewall, and depositing an alkali-antimonide photoemissive cathode on an interior surface of said faceplate, said constituents of said alkali-antimonide photoemissive cathode also being deposited on said coating on said sidewall and alloying therewith, thereby forming a high work function layer for reducing thermionic emission from said sidewall.
Specification