Radar system, integrated radar circuit and method for a radar system

What is claimed is: 1. A radar system, comprising: a first integrated radar circuit having a plurality of first transmission paths and a local oscillator configured to generate a local oscillator signal, wherein the first integrated radar circuit additionally has a first terminal configured to output an oscillation signal based on the local oscillator signal; a second integrated radar circuit having at least one second transmission path and a second terminal; and a partially reflective element that is coupled to the first terminal via a first line section and to the second terminal via a second line section, wherein the partially reflective element is configured to reflect back a first portion of the oscillation signal as a reflected signal via the first line section to the first terminal and to pass on a second portion of the oscillation signal as a forward signal via the second line section to the second terminal, wherein the first integrated radar circuit comprises a directional coupler, which is coupled to the first terminal via a first port and is configured to output the reflected signal via a second port to a signal node of the first integrated radar circuit, wherein the plurality of first transmission paths are coupled to the signal node, and wherein at least one portion of the plurality of first transmission paths is configured to generate radar transmission signals on a basis of the reflected signal. 2. The radar system as claimed in claim 1 , wherein the at least one portion of the plurality of first transmission paths is configured to generate the radar transmission signals in a manner temporally correlated with the reflected signal, and wherein the at least one second transmission path is coupled to the second terminal and configured to generate another radar transmission signal in a manner temporally correlated with the forward signal. 3. The radar system as claimed in claim 1 , wherein the first integrated radar circuit comprises at least one reception path that is coupled to the signal node and is configured to down-convert a radar reception signal using the reflected signal. 4. The radar system as claimed in claim 1 , wherein the second integrated radar circuit comprises at least one reception path which is coupled to the second terminal and is configured to down-convert a radar reception signal using the forward signal. 5. The radar system as claimed in claim 1 , wherein: the first integrated radar circuit comprises at least one first reception path that is coupled to the signal node and is configured to down-convert a first radar reception signal using the reflected signal, and the second integrated radar circuit comprises at least one second reception path which is coupled to the second terminal and is configured to down-convert a second radar reception signal using the forward signal. 6. The radar system as claimed in claim 1 , wherein the partially reflective element is configured to generate the reflected signal and the forward signal with a constant phase angle relative to one another. 7. The radar system as claimed in claim 1 , wherein the partially reflective element is configured to generate the reflected signal and the forward signal in phase with each other. 8. The radar system as claimed in claim 7 , wherein: the first line section and the second line section have a same length, and the length of the first line section and of the second line section are such that a phase of the reflected signal upon reception at the first terminal is identical to a phase of the forward signal upon reception at the second terminal. 9. The radar system as claimed in claim 1 , wherein respective signal strengths of the reflected signal and of the forward signal deviate from one another by less than 50%. 10. The radar system as claimed in claim 1 , wherein respective signal strengths of the reflected signal and of the forward signal are identical. 11. The radar system as claimed in claim 1 , wherein the partially reflective element comprises exclusively passive components. 12. The radar system as claimed in claim 1 , wherein the directional coupler is a rat-race coupler that comprises the second port and a ring conductor, and wherein a biasable Positive Intrinsic Negative (PIN) diode is arranged between the second port of the rat-race coupler and the ring conductor of the rat-race coupler. 13. The radar system as claimed in claim 1 , wherein one of the plurality of first transmission paths is coupled to the first terminal via the directional coupler and is configured to apply the oscillation signal based on the local oscillator signal to the first terminal. 14. The radar system as claimed in claim 1 , further comprising: a third integrated radar circuit having at least one third transmission path and a third terminal, wherein the partially reflective element is coupled to the third terminal via a third line section, wherein the partially reflective element is configured to pass on a third portion of the oscillation signal as a further forward signal via the third line section to the third terminal, and wherein the at least one third transmission path is coupled to the third terminal and is configured to generate a further radar transmission signal in a manner temporally correlated with the further forward signal. 15. The radar system as claimed in claim 14 , wherein the partially reflective element is configured to generate the reflected signal, the forward signal, and the further forward signal with a constant phase angle relative to one another. 16. The radar system as claimed in claim 14 , wherein the partially reflective element is configured to generate the reflected signal, the forward signal, and the further forward signal in phase with each other. 17. The radar system as claimed in claim 1 , wherein: in a further operating mode, the local oscillator of the first integrated radar circuit is inactive, the second integrated radar circuit comprises a further local oscillator, which, in the further operating mode, is configured to generate a further local oscillator signal, the second terminal in the further operating mode is configured to output a further oscillation signal based on the further local oscillator signal, the partially reflective element in the further operating mode is configured to reflect back a first portion of the further oscillation signal as a further reflected signal via the second line section to the second terminal and to pass on a second portion of the further oscillation signal as a further forward signal via the first line section to the first terminal. 18. The radar system as claimed in claim 17 , wherein the at least one portion of the plurality of first transmission paths in the further operating mode is configured to generate the radar transmission signals in a manner temporally correlated with the further forward signal, and wherein the at least one second transmission path in the further operating mode is configured to generate another radar transmission signal in a manner temporally correlated with the further reflected signal. 19. An integrated radar circuit, comprising: a plurality of transmission paths; a local oscillator configured to generate a local oscillator signal; a terminal for linking an external element via a line section, wherein the terminal is configured to output an oscillation signal based on the local oscillator signal to the line section and to receive a portion of the oscillation signal reflected by the external element as a reflected signal via the lin