Method and device for producing a computer-generated hologram, hologram, and lighting device for a vehicle

What is claimed is: 1. A method of producing a computer-generated hologram, the method comprising: producing a reference beam; producing an object beam; applying computer-generated information regarding the hologram to the object beam; and overlapping the object beam and the reference beam on or in a light-sensitive recording medium in order to apply the hologram by exposure, wherein several portions of the light-sensitive recording medium are exposed, one after the other, to the object beam and the reference beam substantially simultaneously in order to produce a plurality of sub-holograms, wherein a first angle of incidence at which the reference beam hits a first portion of a surface of the light-sensitive recording medium is different from a second angle of incidence at which the reference beam hits a second portion of the surface of the light-sensitive recording medium, and wherein a change between the first and second angles of incidence of the reference beam is achieved by changing a point of incidence of the reference beam on a lens through which the reference beam passes on the way to the light-sensitive recording medium, and wherein the reference beam passes through an immersion agent or an immersion liquid that is arranged between the lens and the light-sensitive recording medium or a substrate carrying the light-sensitive recording medium. 2. The method according to claim 1 , wherein, by changing a radial distance between an optical axis of the lens and the point of incidence of the reference beam on the lens, the different first and second angles of incidence at which the reference beam hits the first and second portions of the surface of the light-sensitive recording medium are produced. 3. The method according to claim 1 , wherein the surface of the light-sensitive recording medium is flat. 4. The method according to claim 3 , wherein the light-sensitive recording medium is moved between an exposure with the object beam and the reference beam for producing a first sub-hologram at the first portion and an exposure with the object beam and the reference beam for producing a second sub-hologram at the second portion in a plane that is parallel to the flat surface of the light-sensitive recording medium. 5. The method according to claim 4 , wherein an optical axis of the lens is oriented substantially perpendicular to the plane in which the light-sensitive recording medium is moved between the production of the first and second sub-holograms. 6. The method according to claim 1 , wherein the produced computer-generated hologram is a transmission hologram or a reflection hologram or an edge-lit hologram. 7. The method according to claim 1 , wherein the produced computer-generated hologram serves as a master hologram for the production of hologram replicas. 8. A hologram or a hologram replica produced by the method according to claim 1 , wherein the hologram or the hologram replica is provided for application to a curved surface and/or for use with a light source having a predetermined divergence. 9. A lighting device for a vehicle comprising the hologram or the hologram replica according to claim 8 , wherein the lighting device comprises a curved surface on which the hologram or the hologram replica is arranged. 10. The method according to claim 1 , further comprising a mirror that reflects the reference beam, wherein the point of incidence of the reference beam on the lens through which the reference beam passes on the way to the light-sensitive recording medium is changed by moving the mirror along a path that extends parallel to an optical axis of the lens. 11. The method according to claim 10 , further comprising a telescope that changes or reduces an extension of the reference beam in a transverse direction, wherein with respect to a beam path of the reference beam, the mirror is positioned between the telescope and the lens. 12. A device for producing a computer-generated hologram, the device comprising: a light source for producing a light beam; at least one first optics to split the light beam produced by the light source into an object beam and a reference beam; a modulator to imprint information relating to the hologram onto the object beam; at least one second optics to overlap the object beam and the reference beam on or in a light-sensitive recording medium in order to apply the hologram by exposure, wherein, during operation of the device, a plurality of portions of the light-sensitive recording medium are exposed, one after the other, to the object beam and the reference beam substantially simultaneously in order to form sub-holograms, wherein the at least one second optics to overlap the object beam and the reference beam is designed such that a first angle of incidence at which the reference beam hits a first portion of a surface of the light-sensitive recording medium is different from a second angle of incidence at which the reference beam hits a second portion of the surface of the light-sensitive recording medium, wherein the at least one second optics to overlap the object beam and the reference beam comprises at least one lens through which the reference beam passes on the way to the light-sensitive recording medium, wherein a change between the first and second angles of incidence of the reference beam is achieved by changing a point of incidence of the reference beam on the at least one lens, and wherein the device comprises an immersion agent or an immersion liquid arranged between the at least one lens of the at least one second optics and the light-sensitive recording medium or a substrate carrying the light-sensitive recording medium, such that the reference beam passes through the immersion agent or the immersion liquid. 13. The device according to claim 12 , wherein the device is adapted to generate a computer-generated hologram. 14. The device according to claim 12 , wherein the at least one lens comprises a first lens and a second lens, the first lens being provided on an opposite side of the light-sensitive recording medium as the second lens, wherein the change between the first and second angles of incidence of the reference beam is achieved by changing the point of incidence of the reference beam on one of the first or second lenses. 15. The device according to claim 12 , wherein the at least one lens is part of a lens system comprising two or more lenses through which the reference beam passes on the way to the light-sensitive recording medium. 16. The device according to claim 12 , wherein the device comprises a telescope to change or reduce an extension of the reference beam in a transverse direction. 17. The device according to claim 16 , further comprising a mirror that reflects the reference beam, wherein the point of incidence of the reference beam on the at least one lens through which the reference beam passes on the way to the light-sensitive recording medium is changed by moving the mirror along a path that extends parallel to an optical axis of the lens, wherein with respect to a beam path of the reference beam, the mirror is positioned between the telescope and the at least one lens. 18. The device according to claim 12 , wherein the light source is a laser light source. 19. The device according to claim 12 , further comprising a mirror that reflects the reference beam, wherein the point of incidence of the reference beam on the at least one lens through which the reference beam passes on the way to the light-sensitive recording medium is changed by moving the mirror along