Vacuum pump screw rotors with symmetrical profiles on low pitch sections

The invention claimed is: 1. A vacuum pump screw rotor, comprising: at least two helical displacer elements arranged on a rotor shaft, wherein the at least two displacer elements have pitches differing from each other but being constant for each displacer element, and wherein the at least two displacer elements each comprise at least one helical recess, each recess having a uniform contour over its entire length, wherein a suction-side displacer element has an asymmetric contour, and wherein a pressure-side displacer element has a symmetric contour. 2. The vacuum pump screw rotor according to claim 1 , wherein at least two rotor elements comprising respective helical displacer elements are provided, wherein the displacer elements have pitches differing from each other but being constant for each displacer element. 3. The vacuum pump screw rotor according to claim 1 , wherein the pressure-side displacer element comprises more than 8 windings. 4. The vacuum pump screw rotor according to claim 1 , wherein the pressure-side displacer element is of the single-threaded type. 5. The vacuum pump screw rotor according to claim 1 , wherein the rotor shaft and the at least two displacer elements are of a one-pieced design. 6. The vacuum pump screw rotor according to claim 1 , wherein at least one change of pitch between two adjacent displacer elements is non-uniform. 7. The vacuum pump screw rotor according to claim 1 , wherein a profile of the suction-side displacer element is free of blowholes at least on one flank. 8. The vacuum pump screw rotor according to claim 1 , wherein, between the at least two displacer elements, a tool run-out zone is provided at the change of pitch. 9. The vacuum pump screw rotor according to claim 1 , wherein the entire vacuum pump screw rotor is made of aluminum or an aluminum alloy. 10. The vacuum pump screw rotor according to claim 9 , wherein the aluminum or aluminum alloy has an expansion coefficient of less than 18*10-6/K, and has a silicon percentage of at least 15%. 11. A screw vacuum pump, comprising: two vacuum pump screw rotors according to claim 1 that are mutually meshing, a housing enclosing the two vacuum pump screw rotors, and a drive means connected to the two vacuum pump screw rotors. 12. The screw vacuum pump according to claim 11 , comprising an internal compression of at least 2. 13. The screw vacuum pump according to claim 11 , wherein the two vacuum pump screw rotors have a lower expansion coefficient than the housing, wherein the expansion coefficient of the housing is 5% larger than that of the screw rotors. 14. The screw vacuum pump according to claim 11 , wherein the housing is made of aluminum or an aluminum alloy. 15. The screw vacuum pump according to claim 11 , wherein, between the pressure-side displacer elements and the housing, a gap is arranged, said gap having a height in the range of 0.05 mm to 0.5 mm. 16. The vacuum pump screw rotor according to claim 1 , wherein, between the at least two displacer elements, a void is provided at a change of pitch in at least one of flank of the at least two displacer elements. 17. A vacuum pump screw rotor, comprising: a rotor shaft; a suction-side displacer element arranged on the rotor shaft, wherein the suction-side displacer element has an asymmetric contour and has a first helical recess with a uniform contour over an entire length of the suction-side displacer element, and wherein the suction-side displacer element has an asymmetric contour; a pressure-side displacer element arranged on the rotor shaft, wherein the pressure-side displacer element has a symmetric contour and has a second helical recess with a uniform contour over an entire length of the pressure-side displacer element, and wherein the pressure-side displacer element has a symmetric contour, wherein the suction-side displacer element and the pressure-side displacer element have constant pitches that differ from each other; and a ring-shaped cylindrical recess between the suction-side displacer element and the pressure-side displacer element, wherein the ring-shaped cylindrical recess is sized and configured as a tool run-out zone.