Optical imaging device and imaging method for microscopy

What is claimed is: 1. An optical zoom device configured to set an imaging scale of an imaging device, the imaging device configured to image an object onto an image plane of an image recording device via a microscope objective, the optical zoom device comprising: an optical element arrangement comprising: an object-side zoom entrance optically connected to an objective exit of the microscope objective; an image-side zoom exit optically connected to an image recording entrance of the image recording device; a tele arrangement comprising: a first optical element group with negative refractive power, the first optical element group arranged at the image-side zoom exit, an optical element of the first optical element group being a last optical element before the image recording entrance; and a second optical element group with positive refractive power, the second optical element group assigned to the first optical element group to set the imaging scale, the second optical element group arranged on the obj ective side of the first optical element group; and a third optical element group with positive refractive power arranged at the object-side zoom entrance, the third optical element group configured to generate a real intermediate image in the zoom device between the third optical element group and the second optical element group, wherein the first optical element group is displaceable along an optical axis of the optical element arrangement to set the imaging scale. 2. The optical zoom device of claim 1 , wherein the objective exit is a corrected objective exit and/or a collimated objective exit. 3. The optical zoom device of claim 1 , wherein: the second optical element group is displaceable along the optical axis of the optical element arrangement to set the imaging scale; the first optical element group and the second optical element group are displaceable relative to each other; and/or the third optical element group is displaceable along the optical axis. 4. The optical zoom device of claim 1 , wherein the intermediate image is: in a region of the second optical element group; and/or between the second and third optical element groups. 5. The optical zoom device of claim 1 , wherein: the first optical element group is arrangeable along an optical axis of the optical element arrangement at a substantially constant distance from the image recording device; and/or the third optical element group is arrangeable along the optical axis of the optical element arrangement at a substantially constant distance from the microscope objective. 6. The optical zoom device of claim 1 , wherein: the optical element arrangement comprises a fourth optical element group between the second and third optical element groups; the third optical element group and/or the fourth optical element group is arrangeable along an optical axis of the optical element arrangement at a substantially constant distance from the microscope objective; the first optical element group and/or the second optical element group is displaceable along the optical axis of the optical element arrangement to set the imaging scale; the intermediate image is between the third and fourth optical element groups; and/or the intermediate image is arranged in a region of the fourth optical element group. 7. The optical zoom device of claim 6 , wherein the fourth optical element group is configured to at least partially correct a longitudinal chromatic aberration of the intermediate image. 8. The optical zoom device of claim 1 , wherein: a Petzval sum for the optical elements of the optical element arrangement is at least approximately equal to zero; at least some of the optical elements of the optical element arrangement comprise refractive optical elements; the optical elements of the optical element arrangement comprise quartz glass; the optical elements of the optical element arrangement comprise fluorspar; an attainable extension when setting the imaging scale is 3× to 10×; an attainable focal length range when setting the imaging scale is 1 m to 30 m; and/or the optical element arrangement has an installation length of 1 m to 3 m along an optical axis of the optical element arrangement. 9. The optical zoom device of claim 1 , wherein the tele arrangement is designed according to a teleobjective principle. 10. An optical imaging device, comprising: an imaging unit, comprising: a microscope objective; and an optical zoom device according to claim 1 ; and an image recording device, wherein the imaging unit is configured to image an object onto an image plane of the image recording device. 11. The optical imaging device of claim 10 , wherein: the microscope objective is a catadioptric objective; on its object side, the microscope objective has a numerical aperture greater than 0.8; on its object side, the microscope objective has a field radius greater than 0.2 mm; on its object side, the microscope objective has an etendue greater than 0.3; the microscope objective has a further intermediate image; at its objective exit, the microscope objective has an at least substantially collimated optical connection to the optical zoom device; and/or at its objective exit, the microscope objective has an at least substantially corrected optical connection to the optical zoom device or has an uncorrected optical connection to the optical zoom device. 12. The optical imaging device of claim 11 , wherein: the first optical element group is the last optical element group upstream of the image recording device; and at least one of the following holds: the first optical element group is the last optical element group upstream of the image plane of the image recording device; and an image detector surface of an image detector of the image recording device is in a region of the image plane of the image recording device. 13. The optical imaging device of claim 10 , wherein: the imaging unit is corrected for aberrations over a bandwidth of at least 40 nm; the imaging unit is corrected for aberrations in an operational wavelength range from 180 nm to 400 nm; and/or the imaging unit has an imaging scale of 40× to 1000×. 14. A method, comprising: providing the optical zoom device of claim 1 ; and generating the intermediate image between the second and third optical element groups. 15. The method of claim 14 , further comprising: displacing the first optical element group and/or the second optical element group along an optical axis of the optical arrangement to set the imaging scale; displacing the first optical element group relative to the second optical element group; displacing the third optical element group along the optical axis of the optical arrangement; arranging the intermediate image in a region of the second optical element group; arranging the intermediate image between the second and third optical element groups with a substantially constant distance ratio; arranging the first optical element group along the optical axis of the optical element arrangement at a substantially constant distance from the image recording device; and/or arranging the third optical element group along the optical axis of the optical element arrangement at a substantially constant distance from the microscope objective. 16. The method of claim 14 , further comprising: arranging a fourth optical element group of the optical element arrangement between the second and third optical element groups; arranging the third optical element group and/or the fourth optical element group along an