Anode and x-ray generating tube, x-ray generating apparatus, and radiography system that use the anode

What is claimed is: 1. An anode for an X-ray generating tube comprising: a target layer configured to generate an X-ray when an electron beam is irradiated thereon; a supporting substrate configured to support the target layer; an anode member having a tubular shape, which is configured to hold the supporting substrate inside; and a connecting electrode layer configured to electrically connect the target layer and the anode member, wherein the connecting electrode layer comprises a first bonding boundary where the connecting electrode layer is bonded to the supporting substrate and a second bonding boundary where the connecting electrode layer is bonded to the anode member, and wherein the first bonding boundary and the second bonding boundary are on the same side with respect to an imaginary intermediate plane associated with an aggregation of a plurality of midpoints along the connecting electrode layer, each of which is a midpoint in a thickness direction of the connecting electrode layer, where any portion of the imaginary intermediate plane is perpendicular to the thickness direction of a corresponding region of the connecting electrode layer. 2. The anode according to claim 1 , wherein the connecting electrode layer has a surface supported by the supporting substrate and an opposite surface from the supported surface, and the opposite surface is not bonded to the anode member. 3. The anode according to claim 2 , wherein the anode member has no surface that faces the opposite surface of the connecting electrode layer which is opposite from the connecting electrode layer surface supported by the supporting substrate. 4. The anode according to claim 1 , wherein the second bonding boundary is prevented from cutting across the imaginary intermediate plane, and the second bonding boundary is continuous from the first bonding boundary. 5. The anode according to claim 1 , wherein the connecting electrode layer is smaller in Young's modulus than any of the anode member, the supporting substrate, and the target layer. 6. The anode according to claim 5 , wherein the supporting substrate is made of diamond. 7. The anode according to claim 5 , wherein the anode member is made of at least one element selected from the group consisting of tungsten, tantalum, and molybdenum. 8. The anode according to claim 5 , wherein the target layer is made of at least one element selected from the group consisting of tungsten, tantalum, and molybdenum. 9. The anode according to claim 1 , wherein the supporting substrate is smaller in coefficient of thermal expansion than the anode member. 10. The anode according to claim 1 , wherein the supporting substrate is bonded to the anode member via a ring-shaped bonding member. 11. The anode according to claim 1 , wherein an end of the connecting electrode layer is configured to cover the anode member in a ring pattern. 12. The anode according to claim 1 , wherein the target layer is positioned closer to a center in a tube radial direction than an opening of the anode member is. 13. The anode according to claim 1 , wherein the connecting electrode layer comprises a third bonding boundary where the connecting electrode layer is bonded to the target layer, and wherein the third bonding boundary and the first bonding boundary are on the same side with respect to the connecting electrode layer. 14. The anode according to claim 1 , wherein the supporting substrate comprises a transmissive target through which the X-ray generated in the target layer is transmitted. 15. An X-ray generating tube comprising: the anode according to claim 1 ; a cathode comprising an electron emitting source configured to emit electrons toward the target layer of the anode; and an insulating tube configured to insulate the anode and the cathode, and to form a vacuum container together with the anode and the cathode. 16. An X-ray generating apparatus comprising: the X-ray generating tube according to claim 15 ; and a drive circuit configured to apply a tube voltage between the cathode and the anode of the X-ray generating tube. 17. A radiography system comprising: the X-ray generating apparatus according to claim 16 ; an X-ray detecting apparatus configured to detect an X-ray that has been emitted from the X-ray generating apparatus and transmitted through a subject; and a system control apparatus configured to control the X-ray generating apparatus and the X-ray detecting apparatus in a coordinated manner. 18. The anode according to claim 1 , wherein the supporting substrate is secured to the anode member via a brazing material. 19. The anode according to claim 18 , wherein a melting point of the connecting electrode layer is higher than that of the brazing material.