Patent Number: 
Section: claims

1. A forward flux channel x-ray source comprising:a flat metal x-ray anode plate with at least one x-ray target channel running through said anode plate, wherein said at least one channel is configured to utilize most of the electrons of an incoming electron beam from both primary and secondary impacts of the electrons on the walls of said at least one channel; andat least one cathode disposed opposite to said anode plate and emitting at least one accelerated electron beam that impacts the upper portion of the wall of at least one of said at least one channel; whereinsaid electron beam generating x-rays from both the primary impacts of the electrons at said upper portion of said wall and the secondary impacts of scattered electrons on said walls of the at least one channel. 2. The source of claim 1 in which the upper portion of the inside channel wall is flared out so as to increase the number of primary electron impacts from an incoming electron beam emitted from the cathode opposite the channel. 3. The source of claim 1 in which the upper portion of the inside channel wall is angled so as to increase the number of primary electron impacts from an incoming electron beam emitted from the cathode opposite the channel. 4. The source of claim 1 in which the cathode opposite the channel in the anode plate is offset from normal to said anode channel and the electron beam enters said channel at an angle so as to increase the number of primary electron impacts from the incoming electron beam from said cathode. 5. The source of claim 1 in which a conical electron beam is emitted from the cathode above an annular channel so as to increase the number of primary electron impacts from the said annular electron beam. 6. The source of claim 1 in which an accelerating grid structure is provided between the cathode and the channel in the anode plate and is operable with retarding potential at the bottom portion of said accelerating grid so as to cause the electron beam emitted from said cathode to spread as it enters the channel. 7. A open source of claim 1, wherein the source in enclosed in an actively pumped vacuum chamber. 8. A sealed source of claim 1, in which one or more cathodes are disposed on a cathode plate, a flux exit window is hermetically attached to an anode plate having one or more channels formed therein, said cathode and anode plates being separated by insulating side walls and hermetically sealed to said side walls, and the interior of the hermetically sealed enclosure thus formed evacuated to at least 10−5 Torr. 9. An array source of claim 1 comprising:an array of multiple, spaced apart, electrically isolated and individually addressable cathodes are disposed on a cathode plate;an anode plate with multiple, spaced apart channels disposed opposite said cathode plate, the channels each disposed so as to receive an electron beam from a cathode on said cathode plate, and a flux exit window hermetically attached to the anode plate;the cathodes in said array operable so as to emit individual electron beams to corresponding flux channels and generate x-rays on the inner walls of the channels in the anode plate, the flux then exiting the source; andinsulating side walls,said insulating side walls, anode plate and cathode plate hermetically sealed together to form the vacuum enclosure of the source; andthe interior of the enclosure thus formed evacuated to at least 10−5 Torr. 10. An x-ray imaging system using the source of claim 1.