Optical system for a virtual retinal scan display, and method for projecting image content onto a retina

What is claimed is: 1. An optical system for a virtual retinal scan display, comprising: a. an image source configured to supply an image content in the form of image data; b. an image processing device for the image data; c. a projector unit having a light source able to be modulated in time for generating at least one light beam, and having an actuable refraction device for the at least one light beam for a scanning projection of the image content; d. a deflection unit onto which the image content is able to be projected and which is configured to guide the projected image content onto an eye of a user; and e. an adaptive optical element configured to modify a beam divergence, which is situated in an optical path of the light beam between the light source and the deflection unit, wherein the adaptive optical element is able to be actuated so that a beam divergence of the light beam is variable as a function of an angle of incidence of the light beam on the deflection unit, wherein the image processing device configured to generate, from the image data of the image source, sub-image data which allow for a simultaneous projection of N×M sub-images having essentially the same image content. 2. The optical system as recited in claim 1 , wherein the adaptive optical element is able to be synchronized with the refraction device of the projector unit so that the beam divergence of the light beam is variable as a function of refraction of the light beam. 3. The optical system as recited in claim 1 , wherein the refraction device of the projector unit is configured to refract the light beam more slowly in a horizontal direction than in a vertical direction so that the image content is projected in a column-wise manner, and the adaptive optical element is synchronized with a horizontal refraction of the light beam. 4. The optical system as recited in claim 1 , wherein the refraction device of the projector unit is configured to refract the light beam more slowly in a vertical direction than in a horizontal direction so that the image content is projected in a line-wise manner, and the adaptive optical element is synchronized with a vertical refraction of the light beam. 5. The optical system as recited in claim 1 , further comprising: an eye tracker device configured to acquire and/or determine an eye state of the user, the eye tracker device configured to acquire and/or determine an eye movement and/or an eye movement rate and/or a pupil position and/or a pupil size and/or a viewing direction and/or an accommodation state and/or a fixation distance of the eye, and the adaptive optical element is actuable in such a way that a current eye state of the user is taken into account in the variation of the beam divergence of the light beam. 6. The optical system as recited in claim 1 , further comprising: at least one sensor module configured for determining context information, the content information including a head posture and/or a head orientation and/or a head movement of the user and/or an environment brightness and light conditions and/or a location and/or a movement situation of the user, and the adaptive optical element is actuable in such a way that currently determined context information is taken into account in the variation of the beam divergence of the light beam. 7. The optical system as recited in claim 6 , wherein the adaptive optical element is actuable in such a way that a defective vision and/or a defective accommodation of the user is taken into account in the variation of the beam divergence of the light beam and at least partially compensated. 8. The optical system as recited in claim 7 , further comprising: at least one interface configured for manual input of context information and/or information pertaining to a defective vision and/or a defective accommodation of the user. 9. An optical system for a virtual retinal scan display, comprising: a. an image source configured to supply an image content in the form of image data; b. an image processing device for the image data; c. a projector unit having a light source able to be modulated in time for generating at least one light beam, and having an actuable refraction device for the at least one light beam for a scanning projection of the image content; d. a deflection unit onto which the image content is able to be projected and which is configured to guide the projected image content onto an eye of a user; and e. an adaptive optical element configured to modify a beam divergence, which is situated in an optical path of the light beam between the light source and the deflection unit, wherein the adaptive optical element is able to be actuated so that a beam divergence of the light beam is variable as a function of an angle of incidence of the light beam on the deflection unit, wherein the image processing device configured to generate, from the image data of the image source, sub-image data which allow for a simultaneous projection of N×M sub-images having essentially the same image content, wherein an optical segmentation unit having at least one segmentation element is situated between the projector unit and the deflection unit, which performs a spatial segmentation in that the essentially same image content of the N×M sub images is projected onto the deflection unit via at least two different imaging paths, and the optical segmentation unit is configured to project a first subset of the N×M sub-images with a first scan direction onto the deflection unit, and to project a second subset of the N×M sub-images with a second scan direction counter to the first scan direction onto the deflection unit, so that the beam divergence of the light beam is continuously variable using the adaptive optical element as a function of an angle of incidence of the light beam on the deflection unit. 10. The optical system as recited in claim 9 , wherein the optical function of projecting the first subset of the N×M sub-images with the first scan direction onto the deflection unit and of projecting the second subset of the N×M sub-images with the second scan direction counter to the first scan direction onto the deflection unit is integrated into the at least one segmentation element and/or into at least one optical element that is connected upstream and/or downstream from the at least one segmentation element in the optical path. 11. The optical system as recited in claim 1 , further comprising: smart glasses having a frame and lenses, wherein the at least one projector unit is situated on the frame of the smart glasses, and the at least one deflection unit is situated in a region of at least one lens of the smart glasses. 12. The optical system as recited in claim 11 , wherein the at least one deflection unit is integrated into the at least one lens of the smart glasses. 13. A method for projecting image contents onto a retina of a user using an optical system, the method comprising the following steps: supplying, by an image source, an image content in the form of image data; processing the image data using an image processing device; generating, using a projector unit having a light source able to be modulated in time for, at least one light beam, and scanning, using an actuable refraction device, the at least one light beam for a scanning projection of the image content; receiving, on a deflection unit, the projected image content, and guiding, by the deflection unit, the projected image content onto an eye of a user; and modifying, by an actuable adaptive optical element which is situated in an optical path of the light beam between the light source and the deflection unit, the beam divergenc