Abstract: Radiation apparatus for technical use, with a large number of stretched-out radiation sources emitting in or between the UV and IR ranges and a large number of main reflector segments that are bent and/or folded out of metal sheet in a shape adapted to that of the radiation sources, while the main reflector segments are formed as separate main reflectors and are held, singly replaceable and independently of the radiation sources, in a radiation source housing.

Abstract: Radiation apparatus for technical use, with a large number of stretched-out radiation sources emitting in or between the UV and IR ranges and a large number of main reflector segments that are bent and/or folded out of metal sheet in a shape adapted to that of the radiation sources, while the main reflector segments are formed as separate main reflectors and are held, singly replaceable and independently of the radiation sources, in a radiation source housing.

Abstract: Radiation module for thermal or UV irradiation processing procedures with a large number of radiation sources essentially adjacent and parallel to one another for electromagnetic radiation whose main effective range is in the UV spectrum, visible spectrum, and/or near infrared (NIR) part of the spectrum, particularly at wavelengths between 250 nm and 1.5 ?m, whereby each of the radiation sources possesses an elongated central section, two bent ends, and two bent sections connecting the ends with the central section, and a reflector and cooler body bearing the radiation sources, whereby the reflector and cooler body possesses two end reflector sections assigned to the bent sections of the radiation source from the straight elongated main section to the ends formed as one piece.

Abstract: Radiation module for thermal or UV irradiation processing procedures with a large number of radiation sources essentially adjacent and parallel to one another for electromagnetic radiation whose main effective range is in the UV spectrum, visible spectrum, and/or near infrared (NIR) part of the spectrum, particularly at wavelengths between 250 nm and 1.5 ?m, whereby each of the radiation sources possesses an elongated central section, two bent ends, and two bent sections connecting the ends with the central section, and a reflector and cooler body bearing the radiation sources, whereby the reflector and cooler body possesses two end reflector sections assigned to the bent sections of the radiation source from the straight elongated main section to the ends formed as one piece.

Abstract: Method of manufacturing a semiconducting organic laminated structure, for use in an electronic circuit, in particular a logic and/or memory circuit, wherein a substrate is coated with a solution or dispersion containing a small proportion of an organic composite and having a certain wet-layer thickness, which by drying is converted into an organic thin layer with semiconducting properties that adheres to the substrate and has a dry-layer thickness substantially less than the wet-layer thickness, in particular by an order of magnitude or more, the drying being accomplished by brief irradiation with electromagnetic radiation that has its main effective component in the near-infrared range, in particular in the region between 0.8 and 1.5 ?m.

Abstract: A method is provided for bonding shaped parts using a heat-curable adhesive by joining the parts with the adhesive and exposing the adhesive in the bonded joint thereby formed to electromagnetic radiation, at least part of the radiation being in the near infra-red. At least one of the parts is transparent to the electromagnetic radiation in the area of the bonded joint. This method is particularly suitable for producing vehicle lamp or headlight assemblies.

Abstract: Method of manufacturing a semiconducting organic laminated structure, for use in an electronic circuit, in particular a logic and/or memory circuit, wherein a substrate is coated with a solution or dispersion containing a small proportion of an organic composite and having a certain wet-layer thickness, which by drying is converted into an organic thin layer with semiconducting properties that adheres to the substrate and has a dry-layer thickness substantially less than the wet-layer thickness, in particular by an order of magnitude or more, the drying being accomplished by brief irradiation with electromagnetic radiation that has its main effective component in the near-infrared range, in particular in the region between 0.8 and 1.5 &mgr;m.

Abstract: Method of drying an ink-jet print on a print-image carrier by means of infrared radiation, wherein the image carrier is transported through a strip-shaped irradiation zone and a radiation source is operated in such a way that radiation in the near-infrared region, in particular with a wavelength between 0.8 and 1.5 &mgr;m, acts on the ink-jet print substantially over the entire surface of the print image.