Apparatus for wide coverage computed tomography and method of constructing same

What is claimed is: 1. A tube for generating x-rays comprising: a cathode adapted to emit electrons; a target positioned to receive the electrons from the cathode on a surface thereof; an anode adapted with an aperture and positioned between the cathode and the target and configured to accelerate the electrons toward the surface of the target, wherein the anode is grounded; a rotating system adapted to rotate the target about an axis, the rotating system attached to the target and located in a position facing the surface of the target that is positioned to receive the electrons from the cathode; a high voltage insulator positioned between the cathode and the rotating system to electrically insulate the rotating system from the cathode; and an electron collector having a first aperture therein and positioned between the anode and the target; wherein the anode and the electron collector are positioned such that the electrons pass through the first aperture of the electron collector and through the aperture of the anode. 2. The tube of claim 1 wherein the rotating system includes a rotor, a bearing system and a shaft connected between the rotor and the target to rotate the target. 3. The tube of claim 2 wherein a longitudinal axis of the shaft is parallel to a longitudinal axis of the cathode. 4. The tube of claim 1 wherein the anode comprises the aperture positioned to pass the electrons therethrough. 5. The tube of claim 1 wherein the tube is incorporated into a baggage inspection system. 6. An apparatus for producing two beams of x-ray radiation comprising: a first x-ray tube enclosure that encloses a first volume, the first x-ray tube comprising: a first cathode adapted to emit a first beam of electrons toward a first anode; a first target having a first surface to receive the first beam of electrons emitted by the first cathode to generate a first beam of x-rays; and a first rotating system adapted to rotate the first target about a first axis, the first rotating system located in a position facing the first surface; and a second x-ray tube enclosure that encloses a second volume that is separate from the first enclosure, the second x-ray tube comprising: a second cathode adapted to emit a second beam of electrons toward a second anode; a second target having a second surface to receive the second beam of electrons emitted by the second cathode to generate a second beam of x-rays; and a second rotating system adapted to rotate the second target about a second axis, the second rotating system located in a position facing the second surface; wherein the first and second x-ray tubes are in close proximity to each other and aligned with one another along the first and second axes, and configured to emit the first and second beams of x-rays toward an object to be imaged, and wherein a path of the first beam of electrons and a path of the second beam of electrons are directed in directions along axes that are opposite to one another. 7. The apparatus of claim 6 wherein the first anode is positioned between the first cathode and the first target, the first anode configured to accelerate the first beam of electrons via a first voltage applied between the first cathode and the first anode; and wherein the second anode is positioned between the second cathode and the second target, the second anode configured to accelerate the second beam of electrons via a second voltage applied between the second cathode and the second anode. 8. The apparatus of claim 6 wherein the path of the first beam of electrons and a path of the second beam of electrons are directed along the same axis. 9. The apparatus of claim 6 wherein the first cathode directs the first beam of electrons toward a first focal point on the first surface of the first target and the second cathode directs the second beam of electrons toward a second focal point on the second surface of the second target. 10. The apparatus of claim 6 wherein the apparatus includes a control system adapted to separately activate the first and second cathodes. 11. The apparatus of claim 10 wherein the control system activates the first and second cathodes on an alternating basis. 12. The apparatus of claim 6 wherein the apparatus includes a control system to energize the first and second cathodes at different energy levels. 13. A method of constructing a combined apparatus providing first and second streams of x-ray radiation comprising: providing a first target in a first x-ray tube enclosure that is rotational about a first rotational axis, the first target having a first focal spot on a first face thereof to generate the first stream of x-ray radiation; providing a second target in a second x-ray tube enclosure that is rotational about a second rotational axis, the second target having a second focal spot on a second face thereof to generate the second stream of x-ray radiation, the second x-ray tube enclosure enclosing a volume that is separate from the first x-ray tube enclosure; and placing the first x-ray tube in an abutting position proximate to the second x-ray tube such that the first face of the first target faces away from the second x-ray tube, and such that the second face of the second target faces away from the first x-ray tube, and such that first and second x-ray tubes are aligned with one another along the first and second rotational axes and such that the first and second x-ray tubes are aligned axially to each other along their respective first and second rotational axes. 14. The method of claim 13 comprising positioning the first rotational axis substantially colinear with the second rotational axis. 15. The method of claim 13 wherein the step of placing the first x-ray tube in the abutting position proximate to the second x-ray tube comprises placing the first and second x-ray tubes such that the distance between the first and second focal spots is between approximately 60 and 120 mm. 16. The method of claim 13 comprising: fabricating the first x-ray tube by the steps of: providing a first casing to form the first x-ray tube enclosure; providing a first cathode adapted to emit a first stream of high energy electrons toward the first focal spot; providing the first target having the first face adapted to emit the first stream of x-ray radiation from the first focal spot upon receiving the first stream of high energy electrons emitted by the first cathode; providing a first rotating system adapted to rotate the first target about the first rotational axis; placing a first anode within the first x-ray tube enclosure and between the first cathode and the first target; placing the first cathode within the first x-ray tube enclosure and in a location facing the first face of the first target to direct the first stream of high energy electrons toward the first focal spot on the first target; and placing the first rotating system within the first x-ray tube enclosure and in a location facing the first face of the first target; fabricating the second x-ray tube by the steps of: providing a second casing to form the second x-ray tube enclosure; providing a second cathode adapted to emit a second stream of high energy electrons toward the second focal point; providing the second target having a second face adapted to emit the second stream of x-ray radiation upon receiving the second stream of high energy electrons emitted by the second cathode; providing a second rotating system adapted to rotate the second target about the second rotational axis; placing a second anode within the second x-ray tube encl