Magnetic resonance coil, device and system

The invention claimed is: 1. A magnetic resonance coil for a magnetic resonance device, the magnetic resonance coil comprising: a measuring chamber for an examination object; a cylindrical birdcage antenna arrangement having a plurality of antenna elements in the form of circumferential antenna rings or axial outer rods connecting the rings, wherein the antenna elements are disposed around the measuring chamber, and wherein the antenna elements comprise electric components; and at least two antenna feeds phase-offset to one another by which radio-frequency energy is able to be fed to the birdcage antenna arrangement, wherein the antenna feeds comprise (1) at least one symmetrical feed via at least one of the electric components of the birdcage antenna arrangement and (2) at least one assigned asymmetrical feed between the birdcage antenna arrangement and a screen connection. 2. The magnetic resonance coil as claimed in claim 1 , wherein the electric components are reactive capacitive systems, inductive systems, or reactive capacitive systems and inductive systems. 3. The magnetic resonance coil as claimed in claim 1 , wherein the at least two antenna feeds phase-offset by 90°. 4. The magnetic resonance coil as claimed in claim 1 , wherein the screen connection is a radio-frequency screening system. 5. The magnetic resonance coil as claimed in claim 1 , wherein a reference point that is a geometrical center of two electric connecting lines of the symmetrical antenna feed is located opposite a contact point of an electric connecting line of the assigned asymmetrical antenna feed connected to the birdcage antenna arrangement within an angular tolerance in a common angular position of the cylindrical birdcage arrangement. 6. The magnetic resonance coil as claimed in claim 5 , wherein the angular tolerance of the common angular position of the symmetrical antenna feed and the asymmetrical antenna feed assigned to one another amounts to a maximum of twice of the angular spacing of two neighboring outer rods. 7. The magnetic resonance coil as claimed in claim 1 , wherein the electric connecting lines of the symmetrical antenna feed are connected electrically-conductively with: (1) at least one circumferential antenna ring of the circumferential antenna rings, (2) at least one of the axial outer rods, or (3) at least one circumferential antenna ring and at least one of the axial outer rods. 8. The magnetic resonance coil as claimed in claim 7 , wherein the electric connecting lines are connected electrically-conductively with the at least one circumferential antenna ring on a service side of the magnetic resonance device. 9. The magnetic resonance coil as claimed in claim 7 , wherein the electric connecting lines of the symmetrical antenna feed are connected electrically-conductively in a connection area between the circumferential antenna rings and the axial outer rods. 10. The magnetic resonance coil as claimed in claim 1 , wherein at least one electric connecting line of the symmetrical antenna feed is connected electrically-conductively to one side of a capacitor on a circumferential antenna ring, an axial outer rod, or a circumferential antenna ring and an axial outer rod. 11. The magnetic resonance coil as claimed in claim 1 , wherein the electric connecting lines of the symmetrical antenna feed and the asymmetrical antenna feed are electric conductors of a coaxial cable, and wherein one electric connecting line of the electric connecting lines of the symmetrical antenna feed is short-circuited with one electric connection of the electric connections. 12. The magnetic resonance coil as claimed in claim 1 , wherein the electric connecting lines of the symmetrical antenna feed and the asymmetrical antenna feed are electric conductors of a coaxial cable, and wherein the electric connecting lines of the symmetrical antenna feed are connected electrically-conductively to an outer side of two respective capacitors lying at the end side of an uneven number of capacitors, the uneven number of capacitors connected serially behind one another on (1) the circumferential end rings, (2) the axial outer rods and one of the electric connecting lines, or (3) the circumferential end rings and the axial outer rods and one of the electric connecting lines. 13. The magnetic resonance coil as claimed in claim 12 , wherein an inner conductor of a coaxial cable of the asymmetrical antenna feed is connected electrically-conductively with a respective opposite side of neighboring capacitors in the geometrical center of the neighboring capacitors. 14. The magnetic resonance coil as claimed in claim 1 , wherein the symmetrical antenna feed, the asymmetrical antenna feed, or the symmetrical antenna feed and the asymmetrical antenna feed comprise sheath current filters, a balun transformer, or sheath current filters and a balun transformer. 15. The magnetic resonance coil as claimed in claim 1 , wherein the magnetic resonance coil is a local coil. 16. The magnetic resonance coil as claimed in claim 1 , wherein the magnetic resonance coil is a body coil, and wherein the body coil is configured to image an entire patient. 17. A magnetic resonance device comprising: a magnetic resonance coil, wherein the magnetic resonance coil is a body coil, the magnetic resonance coil comprising: a measuring chamber for an examination object; a cylindrical birdcage antenna arrangement having a plurality of antenna elements in the form of circumferential antenna rings or axial outer rods connecting the rings, wherein the antenna elements are disposed around the measuring chamber, and wherein the antenna elements comprise electric components; and at least two antenna feeds phase-offset to one another by which radio-frequency energy is able to be fed to the birdcage antenna arrangement, wherein the antenna feeds comprise (1) at least one symmetrical feed via at least one of the electric components of the birdcage antenna arrangement and (2) at least one assigned asymmetrical feed between the birdcage antenna arrangement and a screen connection; a gradient coil system disposed radially outside a birdcage antenna arrangement viewed from a measuring chamber outwards; and a radio-frequency screening system disposed between the birdcage antenna arrangement and the gradient coil system. 18. The magnetic resonance device as claimed in claim 17 , wherein a couch for an examination object is disposed in the measuring chamber, and wherein, for the magnetic resonance coil, a common angular position of electric connecting lines of antenna feeds is below the couch. 19. A method for operating a magnetic resonance coil for a magnetic resonance device, the method comprising: feeding radio-frequency energy via at least two antenna feeds to a birdcage antenna arrangement of the magnetic resonance coil, wherein the birdcage antenna arrangement comprises a plurality of antenna elements disposed at least in some areas around a measuring chamber in the form of circumferential antenna rings or axial outer rods connecting the rings, wherein the antenna elements comprise electric components, and wherein the antenna feeds include at least one symmetrical feed via at least one of the electric components of the birdcage antenna arrangement, as well as at least one assigned asymmetrical feed between the birdcage antenna arrangement and a screen connection.