Modular x-ray source

What is claimed is: 1. An x-ray source comprising: a. an x-ray tube and a power supply carried by and at least partially disposed in an electrically-conductive case; b. the x-ray tube including: i. an electrically-insulative enclosure with a cathode and an anode attached to the enclosure; ii. an electron emitter disposed in the enclosure and associated with the cathode; and iii. a target material associated with the anode and configured to emit x-rays in response to impinging electrons from the electron emitter; c. the electrically-conductive case including a socket in an exterior thereof, the socket having a depth of at least 8 millimeters; d. the x-ray tube extending into the socket; e. an electrically-conductive cap: i. carrying the x-ray tube; ii. removably received in the socket of the case forming an electrically and thermally conductive path between the cap and the case; iii. being elongated and annular with a hollow therein; and iv. having an outer end opening and an inner end opening; v. extending beyond an outer face of the case for a distance of at least 3 millimeters to allow removal of the cap by grasping the cap and turning by hand without tools; f. the anode of the x-ray tube attached to the cap and forming a thermally and electrically conductive path between the cap and the anode; g. the x-ray tube oriented to direct x-rays outward from the outer end opening; h. a portion of the x-ray tube extending through the hollow of the cap towards the inner end opening with a first annular gap separating a portion of the x-ray tube from a portion of the cap and providing electrical insulation between the portion of the cap and the portion of the x-ray tube; i. an annular, electrically-insulative, solid plug disposed in the first annular gap between the x-ray tube and the cap; j. material of the plug is an electrically-insulative material and extends around and provides electrical insulation between at least a portion of the power supply and the case; k. the electrically-insulative material has a thermal conductivity of greater than 0.7 ⁢ W m * K ; l. the electrically-insulative material is sealed to the case and the power supply and remains with the case and the power supply when the cap and the x-ray tube are removed from the case; m. an air-filled third annular gap between the plug and the x-ray tube with ribs on an interior surface of the plug facing the x-ray tube. 2. An x-ray source comprising: a. an x-ray tube and a power supply carried by an electrically-conductive case; b. the power supply at least partially disposed in the electrically-conductive case; c. the x-ray tube including: i. an electrically-insulative enclosure with a cathode and an anode attached to the enclosure; ii. an electron emitter disposed in the enclosure and associated with the cathode; and iii. a target material associated with the anode and configured to emit x-rays in response to impinging electrons from the electron emitter; d. the electrically-conductive case including a socket in an exterior thereof; e. the x-ray tube, electrical connections between the x-ray tube and the power supply, or the x-ray tube and the electrical connections together, extend through the socket; f. an electrically-conductive cap: i. carrying the x-ray tube and attaching the x-ray tube to the case; ii. removably received at the socket of the case forming an electrically and thermally conductive path between the cap and the case; iii. being elongated and annular with a hollow therein; and iv. having an outer end opening and an inner end opening; g. the anode of the x-ray tube attached to the cap and forming a thermally and electrically conductive path between the cap and the anode; h. the x-ray tube oriented to direct x-rays outward from the outer end opening; and i. a portion of the x-ray tube extending through the hollow of the cap towards the inner end opening with a first annular gap separating a portion of the x-ray tube from a portion of the cap and providing electrical insulation between the portion of the cap and the portion of the x-ray tube. 3. The x-ray source of claim 2 , wherein the cap blocks 99.9% of all impinging x-rays having energy of less than 20 KeV. 4. The x-ray source of claim 2 , wherein: a. the case and the cap carrying the x-ray tube define a coupling where the cap and the case mate to couple the x-ray tube to the power supply; b. the coupling has a first configuration when the x-ray tube and power supply are configured for a first bias voltage; c. the coupling has a different second configuration when the x-ray tube and power supply are configured for a second bias voltage; and d. the cap and the case in the first configuration cannot mate with the case and the cap, respectively, of the coupling in the different second configuration. 5. The x-ray source of claim 2 , wherein the socket has a depth of at least 10 millimeters. 6. The x-ray source of claim 2 , wherein: a. the case includes a housing substantially circumscribing the power supply with at least four contiguous side walls and a face plate at an open end of the contiguous side walls; b. the face plate is attached to the contiguous side walls across the open end; c. the socket is disposed in the face plate; d. the socket has a depth of at least 8 millimeters. 7. The x-ray source of claim 2 , wherein the cap extends beyond an outer face of the case for a distance of at least 3 millimeters to allow removal of the cap by grasping the cap and turning by hand without tools. 8. The x-ray source of claim 2 , wherein the x-ray tube is connected to the cap by adhesive comprising silver suspended in a resin. 9. The x-ray source of claim 2 , further comprising an annular, electrically-insulative, solid plug disposed in the first annular gap between the x-ray tube and the cap. 10. The x-ray source of claim 2 , wherein: a. the x-ray tube extends into the socket; b. a region of the socket extending from an exterior of the case partially towards an interior of the case defines an outer region; c. a region of the socket extending from the interior of the case partially towards the exterior of the case defines an inner region; d. the cap disposed is at least partially in the outer region of the socket and the x-ray tube extends from the cap, through the outer region, and through the inner region; e. a second annular gap separates the x-ray tube from the case at the inner region; and f. an annular, electrically-insulative, solid plug is disposed in the first annular gap and the second annular gap and electrically insulates the x-ray tube from the case at the inner region and electrically insulates a portion of the x-ray tube from the case and a portion of the x-ray tube from the cap. 11. The x-ray source of claim 10 , wherein material of the plug is an electrically-insulative material and extends around and provides electrical insulation between at least a portion of the power supply and the case. 12. The x-ray source of claim 11 , wherein the electrically-insulative material has a thermal conductivity of greater than 0.7 ⁢ W m *