Anode having a linear main extension direction

The invention claimed is: 1. An anode with a linear main direction of extent for an x-ray device, the anode comprising: an anode body having a focal track layer volume portion formed of a material with at least a basic matrix of a refractory metal; a focal track layer connected to said anode body in a material-bonding manner on said focal track layer volume portion of said anode body, said focal track layer having a length being greater than five times a width of said focal track layer; at least one cooling channel for cooling said anode body and said focal track layer, said cooling channel being disposed in an interior of said anode body, said focal track layer volume portion extending as far as to said cooling channel; and said anode body having at least in a region of said focal track layer volume portion a side face adjusted at an acute angle, on which said focal track layer is at least partially disposed. 2. The anode according to claim 1 , wherein said anode body is monolithically formed. 3. The anode according to claim 1 , wherein said focal track layer and said focal track layer volume portion are formed of a same material. 4. The anode according to claim 1 , wherein said anode body is formed of a single material. 5. The anode according to claim 1 , wherein said focal track layer and said anode body are monolithically formed. 6. The anode according to claim 1 , wherein said anode body is configured in at least two parts, said two parts extending along a main direction of extent of said focal track layer and being connected to one another in a material-bonding manner. 7. The anode according to claim 6 , wherein said cooling channel is defined by at least said two parts of said anode body. 8. The anode according to claim 1 , wherein said cooling channel is formed in said anode body in a vacuum-tight manner. 9. The anode according to claim 1 , wherein said material of said focal track layer volume portion is selected from the group consisting of tungsten, molybdenum, a tungsten-based alloy with more than 50 percent by weight of tungsten, a molybdenum-based alloy with more than 50 percent by weight of molybdenum, a tungsten-based composite with more than 50 percent by weight of tungsten, and a molybdenum-based composite with more than 50 percent by weight of molybdenum. 10. The anode according to claim 1 , further comprising one interlayer disposed to create a material-bonding connection between said focal track layer and said focal track layer volume portion. 11. The anode according to claim 1 , wherein said cooling channel having a wall and at least one portion of said wall is aligned parallel or generally parallel to said focal track layer. 12. The anode according to claim 1 , wherein said cooling channel is formed for directly carrying a cooling fluid. 13. The anode according to claim 1 , wherein said anode body is formed of a single material being said material with at least said basic matrix of said refractory metal. 14. A method for producing an anode with a linear main direction of extent for an x-ray device, which comprises the steps of: forming a cooling channel in an interior of an anode body having a focal track layer volume portion formed of a material with at least a basic matrix of a refractory metal; placing a focal track layer on a side face of the focal track layer volume portion of the anode body and the focal track layer volume portion extending as far as to the cooling channel, the cooling channel provided for cooling the anode body and the focal track layer, the anode body having at least in a region of the focal track layer volume portion a side face adjusted at an acute angle, on the side face the focal track layer is at least partially disposed; forming the focal track layer to have a length being greater than five times a width of the focal track layer; and connecting at least the focal track layer to the focal track layer volume portion in a material-bonding manner.