Rotating anode and method for producing a rotating anode

The invention claimed is: 1. A rotating anode comprising: an outer ring compound comprising a first carbon material with a first material property and carbon fibres substantially aligned to a contour of the outer ring compound, wherein the outer ring compound is configured to mechanically stabilize the rotating anode; an intermediate ring compound comprising a second carbon material with a second material property differing from the first material property; an inner disc compound comprising a layered fibre structure and a third carbon material with a third material property differing from the first and the second material property, wherein the inner disc compound and the intermediate ring compound are configured to provide a thermally conductive interface between the intermediate ring compound and the inner disc compound; and an interface compound comprising a metallic or a semi-metallic material, wherein the interface compound is coupled to the intermediate ring compound and the inner disc compound. 2. The rotating anode according to claim 1 , wherein the intermediate ring compound comprises as the second carbon material graphitic carbon. 3. The rotating anode according to claim 1 , wherein the interface compound comprises as the metallic or semi-metallic material from the group comprising Titanium, Vanadium, Chromium, Manganese, Iron, Cobalt, Nickel, Copper, Zinc, Aluminium, Silicon, Zirconium, Niobium, Molybdenum, Palladium, Silver, Indium, Tin, Platinum or Gold. 4. The rotating anode according to claim 1 , wherein the interface compound comprises as the metallic or semi-metallic material a mixture or an alloy from the group comprising Titanium, Vanadium, Chromium, Manganese, Iron, Cobalt, Nickel, Copper, Zinc, Aluminium, Silicon, Zirconium, Niobium, Molybdenum, Palladium, Silver, Indium, Tin, Platinum or Gold. 5. The rotating anode according to claim 3 , wherein the interface compound comprises a melting or liquidus temperature above 1000° C. 6. The rotating anode according to claim 1 , wherein the inner disc compound and the intermediate ring compound are configured to transport heat from the intermediate ring compound via the inner disc compound to an inner contour of the inner disc compound. 7. The rotating anode according to claim 6 , wherein the outer ring compound is configured to limit thermal expansions of the rotating anode or to limit centrifugal forces or to limit other mechanical forces. 8. The rotating anode according to claim 7 , wherein the intermediate ring compound comprises a metallic coating on a lateral side of the intermediate ring compound. 9. The rotating anode according to claim 7 , wherein the intermediate ring compound is configured to transport heat from the intermediate ring compound to a surface of the rotating anode. 10. The rotating anode according to claim 1 , wherein the inner disc compound comprises as the layered fibre structure a textile layer structure with a first preferred direction of fibre orientation and a second preferred direction of fibre orientation. 11. The rotating anode according to claim 10 , wherein a first type of fibres is aligned along the first preferred direction and a second type of fibres is aligned along the second preferred direction. 12. The rotating anode according to claim 11 , wherein the fibres of the first type are configured to mechanically stabilize the inner disc compound and the fibres of the second type are configured to provide thermal conductivity. 13. The rotating anode according to claim 1 , wherein the outer ring compound is configured to limit a thermal expansion of the inner disc compound and the intermediate ring compound. 14. X-ray tube comprising a high voltage generator, a cathode, and a rotating anode according to claim 1 . 15. Method for producing a rotating anode, the method comprising the steps of: Providing an outer ring compound comprising a first carbon material with a first material property and carbon fibres substantially aligned to a contour of the outer ring compound, wherein the outer ring compound is configured to mechanically stabilize the rotating anode; Providing an intermediate ring compound comprising a second carbon material with a second material property differing from the first material property and providing an inner disc compound comprising a layered fibre structure and a third carbon material with a third material property differing from the first and the second material property, wherein the inner disc compound and the intermediate ring compound are configured to provide a thermally conductive interface between the intermediate ring compound and the inner disc compound; and Providing an interface compound comprising a metallic or a semi-metallic material, wherein the interface compound is coupled to the intermediate ring compound and the inner disc compound.