X-ray source voltage shield

What is claimed is: 1. A shielded x-ray tube comprising: an x-ray tube including a cathode and an anode electrically insulated from one another, the cathode configured to emit electrons in an electron beam towards the anode, and the anode configured to emit x-rays out of the x-ray tube in response to impinging electrons from the cathode; a longitudinal axis of the x-ray tube extending along a center of the electron beam and between the cathode and the anode; an x-ray tube shield encircling the x-ray tube, being electrically insulative, and spaced apart from the x-ray tube by an annular gap, including two open ends located opposite of each other; a longitudinal axis of the x-ray tube shield extends from a center of one open end to a center of the opposite open end; the longitudinal axis of the x-ray tube is parallel to the longitudinal axis of the x-ray tube shield; x-ray tube insulation separating the x-ray tube shield from the x-ray tube, the x-ray tube insulation comprising a solid, electrically-insulative material with a different material composition than a material composition of the x-ray tube shield; an outer insulation wrapping at least partially around the x-ray tube shield and being a solid, electrically-insulative material with a different material composition than a material composition of the x-ray tube shield; and the x-ray tube shield sandwiched between the x-ray tube insulation and the outer insulation. 2. The shielded x-ray tube of claim 1 , wherein the x-ray tube shield is embedded in the x-ray tube insulation and the outer insulation and electrically insulated from any power supply by the x-ray tube insulation and by the outer insulation. 3. The shielded x-ray tube of claim 1 , wherein an electrical resistivity of the x-ray tube shield is ≥10 10 ohm*cm. 4. The shielded x-ray tube of claim 1 , wherein the material composition of the x-ray tube shield comprises ceramic. 5. The shielded x-ray tube of claim 1 , wherein the x-ray tube shield has a thickness of between 1 mm and 5 mm. 6. The shielded x-ray tube of claim 1 , wherein: an internal surface of the x-ray tube shield is corrugated; an external surface of the x-ray tube shield is corrugated, defining a corrugated external surface; and a ridge and a furrow of the corrugated external surface extend in a continuous spiral from the one open end of the x-ray tube shield to the other open end of the x-ray tube shield. 7. The shielded x-ray tube of claim 1 , further comprising: a continuous layer of coating on ≥75% of an outer surface of the x-ray tube shield, ≥75% of an inner surface of the x-ray tube shield, or both; and electrical resistance between the continuous layer of coating nearest one open end of the x-ray tube shield and the continuous layer of coating nearest an opposite open end of the x-ray tube shield is between 100 megaohms and 100,000 megaohms. 8. The shielded x-ray tube of claim 1 , wherein the x-ray tube shield has a melting point ≥500° C. 9. The shielded x-ray tube of claim 1 , wherein the x-ray tube shield encircles the x-ray tube along at least 90% of a length of the x-ray tube. 10. The shielded x-ray tube of claim 1 , wherein the x-ray tube shield has a conical frustum shape, the two open ends including a wider end and a smaller end, the wider end being ≥1.2 times larger than the smaller end. 11. The shielded x-ray tube of claim 10 , wherein the wider end is ≥1.6 times larger than the smaller end. 12. The shielded x-ray tube of claim 1 , wherein the x-ray tube shield has a conical frustum shape; a shortest distance between an inner surface of the x-ray tube shield and the x-ray tube is between 1.5 mm and 15 mm; and a longest distance between the inner surface of the x-ray tube shield and the x-ray tube is between 3 mm and 50 mm. 13. The shielded x-ray tube of claim 1 , wherein the x-ray tube shield has a cylindrical shape. 14. The shielded x-ray tube of claim 1 , wherein: the shielded x-ray tube further comprises a coating on a surface of the x-ray tube shield, the coating being a continuous layer; and electrical resistance of the coating is between 100 megaohms and 100,000 megaohms, where the electrical resistance of the coating is measured between the coating closest to one open end of the x-ray tube shield and the coating closest to the opposite open end of the x-ray tube shield. 15. A shielded power supply for an x-ray source, the shielded power supply comprising: a voltage multiplier; a power supply shield wrapping around the voltage multiplier, the power supply shield being electrically insulative and being spaced apart from the voltage multiplier by an arcuate gap; power supply insulation separating the power supply shield from the voltage multiplier; and the power supply insulation comprising a solid, electrically-insulative material having a different material composition than a material composition of the power supply shield. 16. The shielded power supply of claim 15 , wherein: the voltage multiplier has a longitudinal axis extending from a location on the voltage multiplier with a lowest absolute value of voltage to a location on the voltage multiplier with a highest absolute value of voltage; and the shield encircles the voltage multiplier and extends along at least 50% of a length of the voltage multiplier. 17. The shielded power supply of claim 15 , wherein: the shielded power supply further comprises an outer insulation; the outer insulation wraps at least partially around the power supply shield; the power supply shield is sandwiched between the power supply insulation and the outer insulation; and the outer insulation is a solid, electrically-insulative material with a different material composition than a material composition of the power supply shield. 18. The shielded power supply of claim 17 , wherein: the material composition of the power supply insulation is different than the material composition of the outer insulation; a relative permittivity of the power supply shield is greater than a relative permittivity of the outer insulation; and the relative permittivity of the outer insulation is greater than a relative permittivity of the power supply insulation. 19. The shielded power supply of claim 17 , wherein the power supply shield is fully embedded in the power supply insulation and the outer insulation with no electrical connection to the power supply shield. 20. A shielded power supply for an x-ray source, the shielded power supply comprising: a voltage multiplier; a power supply shield wrapping around the voltage multiplier, the power supply shield being electrically insulative and being spaced apart from the voltage multiplier by an arcuate gap; the shield has a thickness of between 1 mm and 5 mm; power supply insulation separating the power supply shield from the voltage multiplier; and the power supply insulation comprising a solid, electrically-insulative material having a different material composition than a material composition of the power supply shield.