Automotive vacuum pump

What is claimed is: 1. An automotive vacuum pump for pumping a gas, the automotive vacuum pump comprising: a pump housing configured to define a pump cavity, the pump housing comprising a closed housing wall and a housing main body which comprises a cylindrical inside ring surface portion; a shiftable vane; a pump rotor body comprising, at least one vane slit which is configured to support the shiftable vane so as to define at least two rotating pumping chambers, an axial low-pressure end which is axially supported by the closed housing wall so that a gas pressure inside the at least two rotating pumping chambers is present at the low-pressure end of the pump rotor body, a cylindrical outside ring surface, and an axial high-pressure end, the pump housing being configured to be fluidically open at the axial high-pressure end so that atmospheric pressure is present at the axial high-pressure end; a separate axial rotor retaining arrangement comprising a separate retaining sheet body which is arranged in a transversal plane and which is configured to axially block at least partially the axial high-pressure end of the pump rotor body; and a radial friction bearing arranged axially between the at least one vane slit and the axial high-pressure end of the pump rotor body, the radial friction bearing being defined by the cylindrical outside ring surface portion of the pump rotor body and the cylindrical inside ring surface portion of the housing main body, the radial friction bearing directly rotatably supporting the pump rotor body at the pump housing and pneumatically separating the pump cavity from atmospheric pressure. 2. The automotive vacuum pump as recited in claim 1 , wherein, the axial high-pressure end of the pump rotor body comprises an outer ring portion, and the separate retaining sheet body is configured to define a retaining ring which blocks the outer ring portion of the axial high-pressure end of the pump rotor body. 3. The automotive vacuum pump as recited in claim 1 , further comprising: a drive comprising a coupling structure, wherein, the pump rotor body further comprises a coupling structure, the coupling structure of the drive corresponds to the coupling structure of the pump rotor body, and the separate retaining sheet body is configured to define a center opening so that the coupling structure of the pump rotor body is axially accessible for the coupling structure of the drive. 4. The automotive vacuum pump as recited in claim 1 , further comprising: a lubrication conduit arrangement configured to lubricate the radial friction bearing with a lubrication liquid. 5. The automotive vacuum pump as recited in claim 1 , further comprising: a fluidic pump outlet valve, wherein, the separate retaining sheet body is configured to define a spring stopper of the fluidic pump outlet valve. 6. The automotive vacuum pump as recited in claim 1 , further comprising: a separate spring sheet valve body arranged between the separate retaining sheet body and the pump housing. 7. The automotive vacuum pump as recited in claim 1 , further comprising: two separate pump outlet valves arranged at the axial high-pressure end of the pump housing, wherein, the separate retaining sheet body is configured to define a respective spring stopper for each of the two separate pump outlet valves. 8. The automotive vacuum pump as recited in claim 1 , wherein the separate retaining sheet body is further configured to define an elastic rotor biasing element which is configured to axially push the pump rotor body away from the separate retaining sheet body. 9. The automotive vacuum pump as recited in claim 1 , further comprising: an axial friction bearing, wherein, the closed housing wall of the pump housing is provided as a housing cover, the pump rotor body further comprises a front end surface at the axial low-pressure end, and the axial friction bearing is defined by the housing cover and by the front end surface. 10. The automotive vacuum pump as recited in claim 1 , wherein the pump rotor body further comprises a lateral outside which is configured to be stepless and cylindrical over an entire axial extent. 11. The automotive vacuum pump as recited in claim 1 , wherein the pump rotor body comprises one single continuous vane slit as the at least one vane slit, the one single continuous vane slit being configured to support the shiftable vane so as to separate the pump cavity into two rotating pumping chambers.