X-ray source with moving anode or cathode

The invention claimed is: 1. An X-ray source comprising: a cathode element adapted to generate a stream of electrons; an anode element adapted to present a focal spot position for the stream of electrons; a vacuum chamber containing the cathode element and anode element; at least one actuator configured to translate at least one of the anode element or the cathode element with respect to each other, wherein at least one of the at least one actuators is a linear actuator; a spring coupling the anode element to an anchor to facilitate a linear oscillatory motion of the anode element; and a control system coupled to the at least one actuator and adapted to coordinate the translation of at least one of the anode or the cathode with the generation of the stream of electrons. 2. The X-ray source of claim 1 , wherein the anode element is cylindrically shaped. 3. The X-ray source of claim 1 , wherein the at least one actuator is configured to rotate the anode element with respect to the cathode element; and wherein the control system is adapted to coordinate the rotation of the anode with the generation of the stream of electrons. 4. The X-ray source of claim 1 , wherein the at least one actuator configured to translate the anode element with respect to the cathode element is further configured to rotate the anode element with respect to the cathode element. 5. The X-ray source of claim 1 , wherein the at least one actuator is adapted to translate the anode element in a stepped manner with respect to the cathode element. 6. The X-ray source of claim 1 , wherein the control system is configured to translate the anode element at a constant speed in proportion to a current density of the stream of electrons generated by the cathode. 7. The X-ray source of claim 1 , further comprising: a heat sink operatively coupled to the anode element. 8. The X-ray source of claim 1 , wherein the control system is operatively coupled to a cathode power source, the control system configured to implement a sequence of a plurality of electron generation periods through control of the cathode power source for different translated positions along the anode element. 9. An X-ray source, comprising: a plurality of cathode elements each adapted to generate a stream of electrons; a cylindrically shaped anode element adapted to present a focal spot position for each of the stream of electrons, wherein the focal spot position is disposed on an outer lateral surface of the cylindrically shaped anode element; a vacuum chamber containing the plurality of cathode elements and the anode element; at least one actuator configured to translate at least one of the anode element or the plurality of cathode elements with respect to each other; and a control system coupled to the at least one actuator and adapted to coordinate the translation of at least one of the anode or cathode with the generation of each stream of electrons. 10. The X-ray source of claim 9 , wherein the at least one actuator is configured to rotate the anode element with respect to the plurality of cathode elements; and wherein the control system is adapted to coordinate the rotation of the anode with the generation of each stream of electrons. 11. The X-ray source of claim 9 , wherein the at least one actuator configured to translate the anode element with respect to the cathode element is further configured to rotate the anode element with respect to each of the plurality of cathode elements. 12. The X-ray source of claim 9 , further comprising: a heat sink operatively coupled to the anode element. 13. The X-ray source of claim 9 , wherein the at least one actuator is adapted to translate the anode element in a stepped manner with respect to the cathode element. 14. The X-ray source of claim 9 , wherein the control system is configured to translate the anode element at a constant speed in proportion to the current density of the stream of electrons generated by the cathode. 15. The X-ray source of claim 9 , further comprising: a plurality of spools; and a flexible substrate operatively coupled to the plurality of spools, the flexible substrate being coupled to the anode element and configured and adapted to facilitate linear movement of the anode element. 16. The X-ray source of claim 9 , wherein the control system is operatively coupled to a cathode power source, the control system configured to implement a sequence of a plurality of electron generation periods through control of the cathode power source at different translated positions along the anode element.