Abstract: In order to obtain an increased inputs and/or extraction efficiency for light in an organic, electro-optical element, in particular in an OLED, the invention provides an organic, electro-optical element which comprises a substrate (2) and at least one electro-optical structure (4) which comprises an active layer with at least one organic, electro-optical material (61), the substrate having at least one antireflection coating (8, 10) with at least one layer, and the antireflection coating (8, 10) layer having a thickness and a refractive index for which the integral reflectivity at the boundary faces of the antireflection coating is minimal for light beams emerging from the active layer at all angles for a wavelength in the spectral region of the emission spectrum, or for which the integral reflectivity is at most 25 percent higher than the minimum.

Abstract: The invention relates to a compact lens with fixed or variable focal length for digital image acquisition. According to the invention, a refractive optical element of the lens or a group of elements on a light entry side of the lens is provided as a compound lens having a first lens element from a glass or optical ceramics with a first index of refraction and a second lens element from a plastic with a second index of refraction which is smaller than the first index of refraction, the first lens element being located on the beam path in front of the second lens element and on a light entry side of the lens. The lens also comprises at least one diffractive optical element. With a compactly built lens, imaging errors can thus be minimized by simple means. The diffractive optical element directly on or at a transparent cover is preferably made or provided for covering the detector array. Another aspect of the invention relates to a digital image acquisition device with such a lens.

Abstract: The invention describes a solid-state light source comprising a solid-state emitter designed for emitting light energy, which preferably has an LED, a luminescent light conversion medium, made from glass or glass ceramics, for converting emitted light energy to light energy of a different frequency spectrum, and a coupling medium for decoupling the light energy to an ambient medium, such as air, the light conversion medium having a refractive index ncs, selected as a function of the refractive index nHL of the solid-state emitter in the range of 0.7·(nHL2)1/3 to 1.3·(nHL2)1/3.

Abstract: In order to more simply and cost-effectively produce optical components or systems having at least two optical elements, preferably at least one diffractive element and a further refractive and/or diffractive element, and preferably to improve the optical properties of such components and systems, the invention relates to an optical component having a diffractive and/or refractive element which comprises a photosensitive glass and/or a photosensitive glass ceramic, which have structures influencing the light propagation at least in a part of their volume. The invention also relates to a method for producing such an optical component.

Abstract: The present invention relates to beam shaping elements, such as for example lenses, diffractive elements or mirrors, which exist as composites, comprising an inorganic substrate and an organic substrate in the form of a polymer, which can be thermally cured at temperatures between 0 and 180° C. Preferably, the organic polymer is selected from the group consisting of polyurethanes and silicones. According to a preferred embodiment, it is a polyurethane. The beam shaping elements according to the present invention have advantageous properties with respect to precision, rigidity and durability and can further be produced in an easy way by means of an economic method, which method is also subject of the invention.

Abstract: In the method for microstructuring flat glass substrates a substrate surface of a glass substrate is coated with at least one structured mask layer and subsequently exposed to a chemically reactive ion etching process (RIE) with at least one chemical etching gas. In order to provide the same or a higher quality etching and etching rate even for economical types of glass the chemical etching gas is mixed with at least one noble gas, so that the proportion of sputtering etching in the ion etching process is significantly increased.

Abstract: The invention relates to a method for manufacturing of a master for manufacturing of optical elements having optically effective structures by moulding structures, which are formed on the master, onto a surface of an optical substrate, comprising the steps of: providing a substrate; coating a surface of said substrate for forming a coating on said substrate; and patterning said coating for forming structures in said coating. The invention also relates to a master for manufacturing of optical elements, to a method for manufacturing of optical elements as well as to an optical element having at least one surface, wherein at least in portions of said surface optically effective structures are formed.

Abstract: The invention relates to a process for forming an optical element. A forming tool is used having a plurality of molding or hot-embossing portions formed on a surface thereof for molding or hot-embossing optical structures onto a substrate. On the surface of the substrate there is formed at least one preformed portion. The substrate is heated to a temperature above a transition temperature and the forming tool and the substrate are pressed against each other for forming an optical element having a plurality of structures having an optical effect, wherein the shape of the structures having an optical effect is given by the respective associated molding or hot-embossing portion.

Abstract: The invention relates to an arrangement for fluorescence amplification including a substrate, a fluorescence amplifier coating applied to the substrate, and a thin fluorescencable material which lies on the coating and emits light with the emission wavelength ?E when it is exposed to excitation light of an excitation wavelength ?A. The fluorescence amplifier coating includes an interference layer system of high-index and low-index dielectric layers, which reflects at least the excitation light. What is crucial for the design of the coating is that the fluorescencable material applied to the coating is arranged on the surface of the coating in the region of the maximum of the electric field amplitude of the standing wave with the excitation wavelength ?A, which is formed during exposure to the excitation light.

Abstract: A cylindrical lens having a refractive optical element and a diffractive optical element is provided. The cylindrical lens can be fabricated cost effectively and precisely, and optical aberrations and defects in semiconductor diode laser arrangements can be corrected. The diffractive optical element can include various segments.

Abstract: A process for producing an optical device by means of ion exchange is provided. The method includes: coating at least one first region of a substrate with a coating having a first layer of exchange atoms in neutral or ionic form; removing substrate material from at least one second region that adjoins the first region; and exchanging substrate ions with exchange ions from the first layer.

Abstract: In order to meet the legal requirements regarding color of light from a headlight, especially at the light-dark boundary and how much scattered light can occur in the dark region, a lens (5) is provided, which has a diffractive structure on at least one of its surfaces (8). This lens (5) is built into a headlight with a diaphragm (4) arranged between the lens (5) and a light source (3) so that the diffractive structure is arranged substantially only in a region of the lens surface that is not masked by the diaphragm. In various embodiments a computer-generated hologram (17a-17e) can be arranged in the other region of the lens surface that is masked by the diaphragm, so that the lighting apparatus can perform other functions, such as improving driver visibility, displaying an image, measuring the distance to an object or detecting rain or snow.

Abstract: So that in the case of a device for transmitting optical signals and having a waveguide with a doped region that comprises a material that is suitable for amplifying optical signals, the signal quality is worsened as little as possible upon traversing this device, it is provided that the doped region has a predefined absorption and that its amplification