X-ray anode

The invention claimed is: 1. An x-ray anode for generating x-radiation, the x-ray anode comprising: a carrier body; a first emission layer arranged on an outer surface of the x-ray anode, and at least one second emission layer hidden in an interior of said carrier body, said first emission layer and said second emission layer both configured to generate x-radiation upon being impinged by electrons, said first emission layer and said second emission layer arranged on one side of said carrier body; and an intermediate layer disposed to separate said first and second emission layers from one another, and said first and second emission layers being disposed at a spacing distance from one another in a central direction of the x-ray anode; said spacing distance between said first and second emission layers in the central direction is at least 0.5 mm such that said first emission layer is used for generating x-radiation by interacting with high-energy electrons and said second emission layer is protected from the impingement of electrons by the intermediate layer and is therefore inactive. 2. The x-ray anode according to claim 1 , wherein said first emission layer and said at least one second emission layer are congruent in a viewing direction along the central direction in a region of impingement of the electrons. 3. The x-ray anode according to claim 1 , wherein, at least in certain portions, the spacing distance between said first emission layer and said second emission layer is substantially constant. 4. The x-ray anode according to claim 1 , wherein at least one of said first emission layer and said second emission layer is formed of a material selected from the group consisting of tungsten, rhenium and a tungsten alloy. 5. The x-ray anode according to claim 4 , wherein at least one of said first emission layer and said second emission layer is formed of a tungsten-rhenium alloy. 6. The x-ray anode according to claim 1 , wherein said first emission layer and said at least one second emission layer are formed of a common material. 7. The x-ray anode according to claim 1 , wherein said intermediate layer between said first and second emission layers is formed of a same material as said carrier body. 8. The x-ray anode according to claim 1 , wherein said intermediate layer between said first and second emission layers comprises at least one material selected from the group consisting of molybdenum, tungsten, copper, an alloy based on tungsten, an alloy based on molybdenum, an alloy based on copper, a tungsten-copper composite material, a copper composite material, a particle-reinforced copper alloy, a particle-reinforced aluminum alloy and graphite. 9. The x-ray anode according to claim 1 , wherein said carrier body comprises at least one material selected from the group consisting of molybdenum, tungsten, copper, an alloy based on tungsten, an alloy based on molybdenum, an alloy based on copper, a tungsten-copper composite material, a copper composite material, a particle-reinforced copper alloy, a particle-reinforced aluminum alloy and graphite. 10. The x-ray anode according to claim 1 , wherein said intermediate layer is one of a plurality of intermediate layers. 11. The x-ray anode according to claim 1 , wherein said intermediate layer comprises at least one barrier layer. 12. The x-ray anode according to claim 1 , wherein said intermediate layer comprises at least one binding layer. 13. The x-ray anode according to claim 1 , wherein the x-ray anode is configured as a stationary anode or a linear anode. 14. The x-ray anode according to claim 1 , wherein the x-ray anode is configured as a rotary anode. 15. The x-ray anode according to claim 14 , wherein said first emission layer and said at least one second emission layer are annular layers arranged one above another in the central direction.