Ophthalmological device

The invention claimed is: 1. An ophthalmic instrument for the application of laser radiation in an eye, including for examination and/or surgical laser treatment of a cornea and a lens of the eye, the ophthalmic instrument comprising: a femtosecond laser as a radiation source for laser radiation; an optical entrance system; an objective from which a beam emerges that is focused in a direction of the eye; optical assemblies which are arranged in front of the objective as seen in a beam direction and which, in operative connection with the objective, selectively vary a focus position in a coordinate direction X,Y and Z either within a region of the cornea or within a region of the lens of the eye; an aperture angle α on a side of the objective facing the eye being variable by variation of a refractive power ratio within the optical entrance system and, thus, variation of a diameter of a beam emerging from the optical entrance system is also variable, the aperture angle α being smaller when the focus is positioned in a region of the lens than when the focus is positioned in a region of the cornea. 2. The ophthalmic instrument as claimed in claim 1 , further comprising: in front of the objective, a lens of negative refractive power that is part of the optical entrance system and that is movable along the beam direction, the movement of which varies the focus position in the coordinate direction Z; and a deflecting device located in front of the objective that varies the focus position in the coordinate directions X and Y, wherein the deflecting device is located between the lens and the objective. 3. The ophthalmic instrument as claimed claim 2 , in which the optical entrance system further comprises a collecting lens arranged behind the lens of negative refractive power as seen in the beam direction. 4. The ophthalmic instrument as claimed claim 3 , in which the lens of negative refractive power is operably coupled with a linear drive. 5. The ophthalmic instrument as claimed in claim 3 , in which a pair of the lens of negative refractive power and the collecting lens is one among several pairs which are exchangeable with one another to effect the variation of the refractive power ratio within the optical entrance system. 6. The ophthalmic instrument as claimed in claim 2 , in which the lens of negative refractive power is one among several lenses which are exchangeable against one another to effect the variation of the refractive power ratio within the optical entrance system. 7. The ophthalmic instrument as claimed in claim 2 , in which an assembly comprising the radiation source and the negative-power lens is exchangeable with assemblies comprising lenses with different negative powers. 8. The ophthalmic instrument as claimed in claim 2 , in which the deflecting device comprises two mirrors that are arranged at a distance from each other and that can be tilted relative to each other. 9. The ophthalmic instrument as claimed in claim 8 , further comprising an optical pupil system comprising two collecting lenses arranged between the mirrors. 10. The ophthalmic instrument as claimed in claim 2 , further comprising a beamsplitter arranged in a beam path between a deflecting device and the objective that couples out a partial beam directed at an eyepiece or a camera. 11. The ophthalmic instrument as claimed in claim 1 , in which the variation of the aperture angle α on the side of the objective facing the eye is coupled with shifting of a focus position from the region of the cornea to the region of the lens of the eye and vice versa. 12. The ophthalmic instrument as claimed in claim 11 , in which an amount of focus shifting between the cornea and the lens of the eye is a function of an individual depth of an anterior chamber.