X-ray generating tube, X-ray generating apparatus and X-ray imaging system using the same

What is claimed is: 1. An X-ray generating tube comprising: an insulating tube extending along a tube axis and having a pair of tube end portions; a cathode having an electron emitting source, the cathode being secured to one of the tube end portions; an anode having a target, the anode being secured to the other of the tube end portions; and a resistive layer disposed on an outer periphery of the insulating tube, the resistive layer having a lower sheet resistance than a sheet resistance of the insulating tube, wherein each of the cathode and the anode is connected to the resistive layer, respectively. 2. The X-ray generating tube according to claim 1 , wherein a dark current at 100° C. when a voltage of 100 kV is applied between the cathode and the anode is 0.1 μA or more to 10 μA or less. 3. The X-ray generating tube according to claim 1 , wherein at least one of the cathode and the anode comprises an extending portion protruding from the peripheral edge portion in a longitudinal direction of the insulating tube; and wherein the resistive layer is connected to the extending portion. 4. The X-ray generating tube according to claim 3 , wherein the resistive layer is sandwiched between the extending portion and the insulating tube. 5. The X-ray generating tube according to claim 3 , wherein the extending portion is sandwiched between the resistive layer and the insulating tube. 6. The X-ray generating tube according to claim 5 , wherein an end portion of the resistive layer joined to the extending portion is covered with a conductive paste. 7. The X-ray generating tube according to claim 3 , wherein an electrical connection portion between the resistive layer and the at least one of the cathode and the anode is positioned on an outer peripheral portion of the insulating tube. 8. The X-ray generating tube according to claim 1 , wherein an electrical connection portion between the resistive layer and at least one of the cathode and the anode is positioned on an end surface of the insulating tube. 9. The X-ray generating tube according to claim 1 , wherein the insulating tube is made of ceramic, and the resistive layer is made of a glass material. 10. The X-ray generating tube according to claim 9 , wherein the insulating tube is made of alumina, and the resistive layer is made of glaze. 11. The X-ray generating tube according to claim 1 , wherein a specific resistance of the insulating tube at 100° C. is 1×10 Ωm or more to 1×10 14 Ωm or less; and wherein R s 2/R s 1 is 1×10 −5 or more to 1×10 −1 or less, where R s 1 represents a sheet resistance value of the insulating tube at 100° C., and R s 2 represents a sheet resistance value of the resistive layer at 100° C. 12. The X-ray generating tube according to claim 1 , wherein the outer periphery of the insulating tube is an outer periphery of the X-ray generating tube. 13. The X-ray generating tube according to claim 1 , wherein the resistive layer defines a space electric field between the cathode and the anode. 14. The X-ray generating tube according to claim 1 , wherein the anode comprises an end window including a transmissive target. 15. An X-ray generating apparatus comprising: the X-ray generating tube according to claim 1 ; and a container for storing the X-ray generating tube, wherein the container comprises an emission window for emitting X-ray generated by the X-ray generating tube, and a rest space inside the container storing the X-ray generating tube is filled with insulating liquid. 16. The X-ray generating apparatus according to claim 1 , wherein the insulating liquid comprises at least one of silicone oil, transformer oil, and fluorine-containing oil. 17. An X-ray imaging system comprising: the X-ray generating apparatus according to claim 1 ; an X-ray detecting device configured to detect X-ray emitted from the X-ray generating apparatus and passing through a subject to be investigated; and a control device configured to control the X-ray generating apparatus and the X-ray detecting device in a coordinated manner. 18. An X-ray generating tube comprising: an insulating tube extending along a tube axis and having a pair of tube end portions; a cathode having an electron emitting source, the cathode being secured to one of the tube end portions; an anode having a target, the anode being secured to the other of the tube end portions; and a resistive layer disposed on an outer periphery of the insulating tube, the resistive layer having a lower sheet resistance than a sheet resistance of the insulating tube, wherein the resistive layer is connected to each of the cathode and the anode such that a variation and fluctuation of potential gradient in the inner space of the X-ray generating tube is suppressed by a current field along the tube axis direction defined by the resistive layer. 19. The X-ray generating tube according to claim 18 , wherein a dark current at 100° C. when a voltage of 100 kV is applied between the cathode and the anode is 0.1 μA or more to 10 μA or less. 20. The X-ray generating tube according to claim 18 , wherein at least one of the cathode and the anode comprises an extending portion protruding from the peripheral edge portion in a longitudinal direction of the insulating tube; and wherein the resistive layer is connected to the extending portion. 21. The X-ray generating tube according to claim 20 , wherein the resistive layer is sandwiched between the extending portion and the insulating tube. 22. The X-ray generating tube according to claim 20 , wherein the extending portion is sandwiched between the resistive layer and the insulating tube. 23. The X-ray generating tube according to claim 22 , wherein an end portion of the resistive layer joined to the extending portion is covered with a conductive paste. 24. The X-ray generating tube according to claim 20 , wherein an electrical connection portion between the resistive layer and the at least one of the cathode and the anode is positioned on an outer peripheral portion of the insulating tube. 25. The X-ray generating tube according to claim 18 , wherein an electrical connection portion between the resistive layer and at least one of the cathode and the anode is positioned on an end surface of the insulating tube. 26. The X-ray generating tube according to claim 18 , wherein the insulating tube is made of ceramic, and the resistive layer is made of a glass material. 27. The X-ray generating tube according to claim 26 , wherein the insulating tube is made of alumina, and the resistive layer is made of glaze. 28. The X-ray generating tube according to claim 18 , wherein a specific resistance of the insulating tube at 100° C. is 1×10 14 Ωm or more to 1×10 14 Ωm or less; and wherein R s 2/R s 1 is 1×10 −5 or more to 1×10 −1 or less, where R s 1 represents a sheet resistance value of the insulating tube at 100° C., and R s 2 represents a sheet resistance value of the resistive layer at 100° C. 29. The X-ray generating tube according to claim 18 , wherein the outer periphery of the insulating tube is an outer periphery of the X-ray generating tube. 30. The X-ray generating tube according to claim 18 , wherein the resistive layer defines a space electric field between the cathode and the anode. 31. The X-ray generating tube according to