Device for imaging a sample with detection of an asymmetrically distributed angular range

The invention claimed is: 1. A device for imaging a sample arranged in an object plane, comprising: an optical relay system which images an area of the sample from the object plane into an intermediate image plane, wherein the object plane and the intermediate image plane with an optical axis of the relay system include an angle different from 90° and the optical relay system is composed of several lenses; an optical imaging system with an objective, the optical axis of which lies perpendicularly on the intermediate image plane and which is focused on the intermediate image plane, with the result that the object plane can be imaged undistorted onto a detector; an illumination apparatus for illuminating the sample with a light sheet, wherein the light sheet lies essentially in the object plane and defines an illumination direction, and the normal of the object plane defines a detection direction, the system characterized in that the optical imaging system includes an aperture enabling the optical imaging system to detect a detection angular range distributed asymmetrically around the optical axis of the objective and to image it onto the detector. 2. The device according to claim 1 , characterized in that the object plane and the intermediate image plane with the optical axis of the relay system each include an angle, the value of which is smaller than the aperture angle of an object-side detection aperture cone or of an intermediate image-side detection aperture cone respectively of the relay system, and the object plane and the intermediate image plane lie at least partially within the object-side detection aperture cone or the intermediate image-side detection aperture cone respectively. 3. The device according to claim 1 , comprising an evaluation unit connected to the detector for image processing while taking into account an asymmetrical point spread function on the basis of the asymmetrical detection angular spectrum and/or a compressed point spread function. 4. The device according to claim 1 , characterized in that the numerical aperture of the optical imaging system is larger than the numerical aperture of the relay system. 5. The device according to claim 1 , characterized in that a first optical medium is arranged between the optical relay system and the intermediate image plane and a second optical medium is arranged between the intermediate image plane and the optical imaging system, wherein the intermediate image plane lies in the boundary surface between first and second optical medium and the second optical medium has a higher refractive index than the first optical medium. 6. The device according to claim 1 , characterized in that the relay system is constructed symmetrically in relation to a plane of symmetry between the subsystems perpendicular to the optical axis of the relay system, with the result that the imaging by the relay system takes place on an image scale of 1:1, and/or in that the relay system is constructed catadioptrically. 7. The device according to claim 1 , characterized in that illumination light in the intermediate image plane is coupled into a beam path of the relay system for illuminating the sample with the light sheet. 8. The device according to claim 1 , characterized in that illumination light for illuminating the sample with the light sheet is coupled into a beam path of the relay system by using a pupil plane of the relay system. 9. A method for imaging a sample arranged in an object plane, in which the sample is illuminated with a light sheet, wherein the light sheet lies essentially in the object plane and defines an illumination direction, and the normal of the object plane defines a detection direction, an area of the sample is imaged from the object plane by means of an optical relay system into an intermediate image plane, wherein the object plane and the intermediate image plane with an optical axis of the relay system include an angle different from 90°, the intermediate image plane is imaged by means of an optical imaging system with an objective, the optical axis of which lies perpendicularly on the intermediate image plane and which is focused on the intermediate image plane, undistorted onto a detector and is recorded there as an image, wherein the optical imaging system includes an aperture which enables detection of a detection angular range distributed asymmetrically around the optical axis, the recorded image is processed in an evaluation unit connected to the detector while taking into account an asymmetrical point spread function on the basis of the asymmetrical detection angular spectrum and/or a compressed point spread function. 10. A method according to claim 9 , characterized in that the object plane and the intermediate image plane lie at least partially within the object-side detection aperture cone or the intermediate image-side detection aperture cone respectively.