Computed tomography system and patient table including a contactless transfer of electrical signals

The invention claimed is: 1. A computed tomography system with a contactless data signal transfer, the computed tomography system comprising: a longitudinally slit coaxial conductor element; a radiofrequency transmission unit configured to feed a radiofrequency carrier signal, modulated with a data signal to be transferred, into the longitudinally slit coaxial conductor element; a longitudinally slit coaxial coupling conductor element that is configured to receive an emitted modulated radiofrequency carrier signal from a near field of the longitudinally slit coaxial conductor element; a radiofrequency reception unit that is electrically connected to the longitudinally slit coaxial coupling conductor element and is configured to extract the data signal from the received modulated radiofrequency carrier signal; a first gantry part arranged in a rotatable manner, the longitudinally slit coaxial conductor element being arranged on the first gantry part in a circular-ring-shaped manner; and a second gantry part arranged in a stationary manner, the longitudinally slit coaxial coupling conductor element being arranged on the second gantry part, wherein the longitudinally slit coaxial conductor element is a first longitudinally slit coaxial cable, and wherein the longitudinally slit coaxial coupling conductor element is a second longitudinally slit coaxial cable. 2. The computed tomography system of claim 1 , wherein the longitudinally slit coaxial conductor element is terminated with a first resistance, and wherein the longitudinally slit coaxial coupling conductor element is terminated with a second resistance. 3. The computed tomography system of claim 2 , wherein the termination of the longitudinally slit coaxial conductor element with the first resistance is at a first end of the longitudinally slit coaxial conductor element and is reflection-free, and wherein the radiofrequency transmission unit is configured to feed the radiofrequency carrier signal, modulated with the data signal to be transferred, into the longitudinally slit coaxial conductor element at a second end of the longitudinally slit coaxial conductor element. 4. The computed tomography system of claim 1 , wherein the longitudinally slit coaxial conductor element comprises an inner conductor and a dielectric disposed around the inner conductor, and wherein the at least one longitudinally slit coaxial conductor element is arranged in a groove or further comprises an outer conductor with a longitudinal slit. 5. The computed tomography system of claim 1 , wherein the longitudinally slit coaxial coupling conductor element is a first longitudinally slit coaxial coupling conductor element, wherein the computed tomography system further comprises a second longitudinally slit coaxial coupling conductor element, and wherein the first longitudinally slit coaxial coupling conductor element and the second longitudinally slit coaxial coupling conductor element are arranged along a circumference of the longitudinally slit coaxial conductor element, the second longitudinally slit coaxial coupling conductor element being opposite the first longitudinally slit coaxial coupling conductor element. 6. The computed tomography system of claim 1 , wherein the longitudinally slit coaxial conductor element comprises a first segment and a second segment, the second segment being opposite the first segment, and wherein the longitudinally slit coaxial coupling conductor element is arranged along a circumference of the longitudinally slit coaxial conductor element. 7. The computed tomography system of claim 6 , wherein the longitudinally slit coaxial coupling conductor element is a first longitudinally slit coaxial coupling conductor element, wherein the computed tomography system further comprises a second longitudinally slit coaxial coupling conductor element, and wherein the second longitudinally slit coaxial coupling conductor element is arranged along the circumference of the longitudinally slit coaxial conductor element and at a distance relative to the first longitudinally slit coaxial coupling conductor element. 8. A computed tomography system with a contactless data signal transfer, the computed tomography system comprising: a longitudinally slit coaxial conductor element; a radiofrequency transmission unit configured to feed a radiofrequency carrier signal, modulated with a data signal to be transferred, into the longitudinally slit coaxial conductor element; a longitudinally slit coaxial coupling conductor element that is configured to receive an emitted modulated radiofrequency carrier signal from a near field of the longitudinally slit coaxial conductor element; a radiofrequency reception unit that is electrically connected to the longitudinally slit coaxial coupling conductor element and is configured to extract the data signal from the received modulated radiofrequency carrier signal; a first gantry part arranged in a rotatable manner, the longitudinally slit coaxial coupling conductor element being arranged on the first gantry part; and a second gantry part arranged in a stationary manner, the longitudinally slit coaxial conductor element arranged on the second gantry part in a circular-ring-shaped manner, wherein the longitudinally slit coaxial conductor element is a first longitudinally slit coaxial cable, and wherein the longitudinally slit coaxial coupling conductor element is a second longitudinally slit coaxial cable. 9. The computed tomography system of claim 8 , wherein the longitudinally slit coaxial conductor element is terminated with a first resistance, and wherein the longitudinally slit coaxial coupling conductor element is terminated with a second resistance. 10. The computed tomography system of claim 9 , wherein the termination of the longitudinally slit coaxial conductor element with the first resistance is at a first end of the longitudinally slit coaxial conductor element and is reflection-free, and wherein the radiofrequency transmission unit is configured to feed the radiofrequency carrier signal, modulated with the data signal to be transferred, into the longitudinally slit coaxial conductor element at a second end of the longitudinally slit coaxial conductor element. 11. The computed tomography system of claim 8 , further comprising: a first carrier element, in which the longitudinally slit coaxial conductor element is formed; and a second carrier element, in which the longitudinally slit coaxial coupling conductor element is formed. 12. The computed tomography system of claim 11 , wherein the second carrier element is made of metal and forms an outer conductor of the longitudinally slit coaxial coupling conductor element. 13. The computed tomography system of claim 11 , wherein the second carrier element has a rectangular cross section, and the longitudinally slit coaxial coupling conductor element comprises an inner conductor that is arranged in a groove of the second carrier element. 14. The computed tomography system of claim 8 , wherein the at least one longitudinally slit coaxial conductor element comprises an inner conductor and a dielectric disposed around the inner conductor, and wherein the at least one longitudinally slit coaxial conductor element is arranged in a groove or further comprises an outer conductor with a longitudinal slit. 15. A patient table for imaging medical engineering systems with a contactless data signal transfer, the patient table comprising: at least one longitudinally slit coaxial conductor element configured to receive a radiofrequency carrier signal that is modulated wit