Dual tube support for electron emitter

What is claimed is: 1. An x-ray tube, comprising: a. an evacuated, electrically-insulative enclosure with a cathode and an anode at opposite ends; b. dual, concentric, electrically-conductive emitter tubes extending from the cathode towards the anode, and comprising an inner tube and an outer tube; c. each of the inner and outer tubes having opposite ends comprising a far end disposed closer to the anode and an opposite near end associated with the cathode; d. a first gap between the far end of the outer tube and the anode and a second gap between the far end of the inner tube and the anode; e. an electron emitter: i. electrically-coupled between the far end of the inner tube and the far end of the outer tube; ii. substantially centered across the far end of the outer tube; and iii. having a center that is substantially aligned with a longitudinal axis of the enclosure; f. the inner and outer tubes being electrically isolated from one another except for the electron emitter; g. a length of the inner tube being greater than a length of the outer tube; h. the near end of the inner tube extending outside the enclosure; and i. the near end of the inner tube being a pinched-shut end. 2. The x-ray tube of claim 1 , wherein the first gap is smaller than a length of the outer tube. 3. The x-ray tube of claim 1 , wherein the first gap is between 4% and 25% of a length of the outer tube. 4. The x-ray tube of claim 1 , further comprising an annular hollow between the far end of the outer tube and the enclosure. 5. The x-ray tube of claim 1 , further comprising a power supply including a first cathode electrical connection that is electrically coupled to the near end of the outer tube by a helical spring. 6. An x-ray tube, comprising: a. an evacuated, electrically-insulative enclosure with a cathode and an anode at opposite ends; b. dual, electrically-conductive emitter tubes: a. extending from the cathode towards the anode; b. comprising an inner tube disposed at least partially inside of an outer tube; and c. each of the inner and outer tubes having opposite ends comprising a far end disposed closer to the anode and an opposite near end associated with the cathode; c. a first gap between the far end of the outer tube and the anode and a second gap between the far end of the inner tube and the anode; and d. an electron emitter coupled between the far end of the inner tube and the far end of the outer tube, the inner and outer tubes being electrically isolated from one another except for the electron emitter. 7. The x-ray tube of claim 6 , wherein the far end of the inner tube includes a radial projection extending radially outwardly from the inner tube towards the outer tube. 8. The x-ray tube of claim 7 , wherein the radial projection extends towards a groove in the far end of the outer tube. 9. The x-ray tube of claim 8 , wherein the far end of the outer tube substantially surrounds a circumference of the far end of the inner tube with the exception of the groove. 10. The x-ray tube of claim 6 , wherein the electron emitter is substantially centered across the far end of the outer tube. 11. The x-ray tube of claim 6 , wherein: a. a length of the inner tube is greater than a length of the outer tube; b. the near end of the inner tube extends outside the enclosure; and c. the near end of the inner tube is a pinched-shut end. 12. The x-ray tube of claim 11 , wherein the pinched-shut end of the inner tube defines an electrical contact configured to be electrically coupled to a power supply. 13. The x-ray tube of claim 6 , further comprising an annular hollow between the far end of the outer tube and the enclosure. 14. The x-ray tube of claim 6 , further comprising a power supply including a first cathode electrical connection that is electrically coupled to the near end of the outer tube by a helical spring. 15. The x-ray tube and power supply of claim 14 , wherein the helical spring is substantially enclosed within an electrically-conductive cup that is capped off with the cathode. 16. The x-ray tube of claim 6 , wherein the first gap is smaller than a length of the outer tube. 17. The x-ray tube of claim 6 , wherein the electron emitter is disposed between 0.5 millimeters and 8 millimeters from the anode. 18. The x-ray tube of claim 6 , wherein the outer tube comprises titanium. 19. The x-ray tube of claim 6 , wherein the inner tube comprises copper, nickel, or combinations thereof. 20. A method of evacuating and sealing an x-ray tube, the method comprising: a. providing the x-ray tube with: i. a cathode and an anode at opposite ends of an electrically-insulative enclosure; ii. dual, electrically-conductive emitter tubes extending from the cathode towards the anode, and comprising an inner tube disposed at least partially within an outer tube; iii. the inner tube and the outer tube each having opposite ends comprising a near end associated with the cathode and a far end disposed closer to the anode; iv. an electron emitter coupled between the far end of the inner tube and the far end of the outer tube; v. the inner and the outer tube being electrically isolated from one another except for the electron emitter; vi. the inner tube being open with the near end of the inner tube extending outside the enclosure beyond the cathode; and vii. the enclosure sealed off except for the open inner tube; b. substantially evacuating the x-ray tube by drawing a vacuum on the enclosure through the open inner tube; and c. sealing off the substantially evacuated x-ray tube by pinching shut the near end of the inner tube.