Device and method for the industrial production of volume reflection holograms with substrate-guided reconstruction beams

1 .- 14 . (canceled) 15 . An Apparatus for producing volume reflection holograms with substrate-guided reconstruction beams, comprising: at least one transparent, planar carrier element comprising a first flat side and a further flat side, at least one master element arrangeable at the first flat side of the carrier element and at least one optical input coupling element configured to optically couple a light beam, wherein provision is made of at least one coupling portion configured to mechanically establish an optical contact between the input coupling element and at least one holographic recording medium providable on the further flat side of the carrier element or configured to mechanically establish an optical contact between the further flat side of the carrier element and at least one holographic recording medium providable on a flat side of the optical input coupling element, wherein at least the coupling portion is formed from a material with a shear modulus of between 1000 Pa and 50 MPa. 16 . The apparatus according to claim 15 , wherein the input coupling element and the coupling portion or the coupling portion and the carrier element are homogeneously formed from a material with a shear modulus of between 1000 Pa and 50 MPa, or the input coupling element or the carrier element, as a coupling portion, has a coating formed from a material with a shear modulus of between 1000 Pa and 50 MPa, or the input coupling element and the coupling portion or the carrier element and the coupling portion are formed as separate elements, wherein the coupling portion, in particular, is formed as a transportable film from a material with a shear modulus of between 1000 Pa and 50 MPa. 17 . The apparatus according to claim 15 , wherein provision is made of at least one handling element, at least mechanically connectable to the input coupling element, configured to move the input coupling element or provision is made of at least one handling element, at least mechanically connectable to the carrier element, configured to move the carrier element. 18 . The apparatus according to claim 17 , wherein provision is made of at least one controller for controlling the handling element, the controller being configured to actuate the handling element in such a way that, in a coupling step, the input coupling element or the carrier element is moved from an initial position into a coupling position and/or the controller being configured to actuate the handling element in such a way that, in a decoupling step, the input coupling element or the carrier element is moved from the coupling position into the initial position. 19 . The apparatus according to claim 18 , wherein the controller is configured to actuate the handling element in such a way that, in a first partial step of the coupling step, the input coupling element or the carrier element is moved from the initial position into an intermediate position, at least one edge of the coupling portion contacting the holographic recording medium in the intermediate position. 20 . The apparatus according to claim 19 , wherein the controller is configured to actuate the handling element in such a way that, in a further partial step of the coupling step, the input coupling element or the carrier element is moved from the intermediate position into the coupling position by way of a tilting movement and/or the controller is configured to actuate the handling element in such a way that, in a further partial step of the coupling step, the input coupling element or the carrier element is moved from the intermediate position into the coupling position by way of a translational movement. 21 . The apparatus according to claim 19 , wherein the controller is configured to actuate the handling element in such a way that, in a further partial step of the coupling step, the input coupling element or the carrier element is moved from the intermediate position into the coupling position by way of a translational movement, there is an angle β between a flat side of the coupling portion and a flat side of the holographic recording medium in the intermediate position, the angle β satisfying the condition β<arctan(d/l), where d is the layer thickness of the coupling portion in an uncompressed state and l is the length of the coupling portion. 22 . The apparatus according to claim 15 , wherein the master element is configured to diffract an incident light beam in an at least partly reflective manner. 23 . The apparatus according to claim 15 , wherein the holographic recording medium is formed from a material selected from the group comprising photoresistive materials, photopolymers, silver halide film, dichromated gelatin, photochromic materials or photorefractive materials. 24 . The apparatus according to claim 15 , wherein provision is made of a conveying device configured to transport the holographic recording medium. 25 . The apparatus according to claim 15 , wherein at least the coupling portion is formed from a material selected from the group comprising polyurethane, silicone, natural rubber, polyvinyl butyral, polyvinyl acetate, polyvinyl chloride, polyacrylate and/or epoxy resin. 26 . The apparatus according to claim 15 , wherein provision is made of at least one laser source and wherein the laser source is configured to expose the holographic recording medium in a static manner or with a scanning laser beam. 27 . A method for producing volume reflection holograms with substrate-guided reconstruction beams, comprising: providing at least one transparent, planar carrier element with a first flat side and a further flat side, a master element being arranged at the first flat side of the carrier element, providing at least one optical input coupling element with a flat side, providing a holographic recording medium on the further flat side of the carrier element or the flat side of the optical input coupling element, optically coupling the holographic recording medium with a flat side of a coupling portion in a coupling step in such a way that a light beam is coupled into the holographic recording medium by way of the input coupling element and reflected by the master element, at least the coupling portion being formed from a material with a shear modulus of between 1000 Pa and 50 MPa. 28 . Input coupling element configured for the optical input coupling of a light beam for an apparatus for producing volume reflection holograms with substrate-guided reconstruction beams according to claim 15 , the input coupling element comprising at least one coupling portion configured to establish optical contact with at least one holographic recording medium providable on a further flat side of a carrier element and at least the coupling portion being formed from a material with a shear modulus of between 1000 Pa and 50 MPa.