Abstract: A method for production of a substrate having a patterned optical coating on a curved surface is provided. The method includes applying a masking to a sub-area of the curved surface applying an optical coating using a vacuum deposition method, and removing the masking. A coated substrate, which can be produced in particular by the method described above, is also provided. The coated substrate includes a curved surface that is provided with at least one patterned optical coating. The at least one patterned optical coating is provided on at least one sub-area of the curved surface and is missing on at least one adjacent sub-area.

Abstract: In order to provide a thermostable and highly effective barrier coating on a substrate, and to protect the substrate against the effect of harmful gas components even at high temperatures, the invention provides a coated substrate comprising a barrier coating having a multiplicity of consecutive individual layers respectively of a kind differing from or similar to a neighboring individual layer, the individual layers exhibiting a layer thickness of respectively at most 50 nanometers.

Abstract: In the case of CVD methods, comprising PECVD and PICVD methods, the aim of the invention is to improve the impurity-free and, as far as possible, temporally and quantitatively precise feeding of process gases for the targeted layer systems. To this end, the invention provides a coating system and a method for coating articles with alternating layers, in the case of which process gases are introduced in an alternating fashion into a gas mixing point and mixed with a further gas and led to the reaction chamber, in which the deposition is carried out by producing a plasma.

Abstract: The invention relates to a discharge vessel of a quartz glass for discharge lamps with a diffusion barrier inner layer of silicon oxide, which as a single layer is applied and/or is generated on the inner surface as well as to a method for generating and/or applying such a diffusion barrier inner layer and to the use of such a discharge vessel.

Abstract: A method and apparatus for coating substrates by means of plasma enhanced vapor deposition are provided, in which at least part of the surroundings of the substrate surface of a substrate to be coated is evacuated and a process gas with a starting substance for the coating is admitted, wherein the coating is deposited by a plasma being ignited by radiating in electromagnetic energy in the surroundings of the substrate surface filled with the process gas. The electromagnetic energy is radiated in by a multiplicity of pulse sequences, preferably microwave or radiofrequency pulses, with a multiplicity of pulses spaced apart temporally by first intermissions, wherein the electromagnetic energy radiated in is turned off in the intermissions, and wherein the intermissions between the pulse sequences are at least a factor of 3, preferably at least a factor of 5, longer than the first intermissions between the pulses within a pulse sequence.

Abstract: The invention relates to layer systems having at least one layer comprising titanium aluminum oxide. The layer comprising titanium aluminum oxide may be either a functional layer—with or without interruption by an intermediate layer which is optically inactive—or a functional layer formed from a metal oxide which is interrupted by an intermediate layer comprising titanium aluminum oxide. The layer systems are structurally and thermally stable at operating temperatures of over 600° C. The layer systems may either comprise only one functional layer or may be a multilayer system, preferably an alternating layer system composed of functional layers with high and low refractive indices.

Abstract: A method of producing substrates with functional layers which have high optical properties and/or a high surface smoothness, in particular a low turbidity and significantly lower roughness, is provided. The method includes a sputtering process for coating a substrate with at least one functional layer, the sputtering process being interrupted at least once by the application of an intermediate layer with a thickness of less than 20 nm.

Abstract: The invention relates to a discharge vessel of a quartz glass for discharge lamps with a diffusion barrier inner layer of silicon oxide, which as a single layer is applied and/or is generated on the inner surface as well as to a method for generating and/or applying such a diffusion barrier inner layer and to the use of such a discharge vessel.

Abstract: In order to provide a thermostable and highly effective barrier coating on a substrate, and to protect the substrate against the effect of harmful gas components even at high temperatures, the invention provides a coated substrate comprising a barrier coating having a multiplicity of consecutive individual layers respectively of a kind differing from or similar to a neighboring individual layer, the individual layers exhibiting a layer thickness of respectively at most 50 nanometers.

Abstract: A magnet/target assembly 1 comprises a target 2 consisting of a plurality of (virtual) segments 2.1, 2.2, 2.3, 2.4, 2.5, 2.6 arranged side by side, each of them extending along the longitudinal axis x of the target 2. Each of the plurality of target segments 2.1, 2.2, 2.3, 2.4, 2.5, 2.6 has a magnet system 3.1, 3.2, 3.3, 3.4, 3.5, 3.6 attributed to the respective target segment. In an embodiment of the target/magnet assembly 1 according to the present invention the magnet systems 3.1, 3.2, 3.3, 3.4, 3.5, 3.6 are arranged mutually offset relative to their respective adjacent magnet systems 3.1, 3.2, 3.3, 3.4, 3.5 and 3.6, respectively, while scanning the target segments 2.1, 2.2, 2.3, 2.4, 2.5 and 2.6, respectively. Particularly, the first magnet system 3.1, the third magnet system 3.3 and the fifth magnet system 3.5 are a first group of magnet systems moving parallel and synchronously with each other, and the second magnet system 3.2, the forth magnet systems 3.4 and the sixth magnet system 3.

Abstract: An apparatus for coating objects having a single microwave source, two or more coating chambers, and an impedance structure or a waveguide structure. The coating chambers are connected to the single microwave source. The impedance structure or waveguide structure divides the microwave energy in order to generate plasmas in the coating chambers.

Abstract: The invention relates to a coated object in which coatings remain of a constant and unchanged high quality despite operating temperatures of more than 350° C. This is achieved with interlayers which deliberately interrupt and thereby stabilize the morphology of the coating.

Abstract: The invention is based on the object of reducing the heating of substrates during plasma enhanced chemical vapor deposition. For this purpose, a method and an apparatus for coating substrates by means of plasma enhanced vapor deposition are provided, in which at least part of the surroundings of the substrate surface of a substrate to be coated is evacuated and a process gas with a starting substance for the coating is admitted, wherein the coating is deposited by a plasma being ignited by radiating in electromagnetic energy in the surroundings of the substrate surface filled with the process gas.

Abstract: In the case of CVD methods, comprising PECVD and PICVD methods, the aim of the invention is to improve the impurity-free and, as far as possible, temporally and quantitatively precise feeding of process gases for the targeted layer systems. To this end, the invention provides a coating system and a method for coating articles with alternating layers, in the case of which process gases are introduced in an alternating fashion into a gas mixing point and mixed with a further gas and led to the reaction chamber, in which the deposition is carried out by producing a plasma.

Abstract: A scratchproof, temperature-stable protective layer, in particular a scratch-resistant protective layer for cooking hobs is provided. In addition, processes and an apparatus for producing these protective layers are provided. The protective layer includes at least one hard-material layer having a functional layer interrupted by very thin interlayers so that the functional layer has a morphologically dense columnar structure that grows substantially perpendicular to the body surface. The production of layers of this type is achieved by a magnetron sputtering process and a corresponding arrangement, with the tendency of the columnar structures to widen out being reduced by targeted interruption of the growth of the functional layers.

Abstract: A method for production of a substrate having a patterned optical coating on a curved surface is provided. The method includes applying a masking to a sub-area of the curved surface, applying an optical coating using a vacuum deposition method, and removing the masking. A coated substrate, which can be produced in particular by the method described above, is also provided. The coated substrate includes a curved surface that is provided with at least one patterned optical coating. The at least one patterned optical coating is provided on at least one sub-area of the curved surface and is missing on at least one adjacent sub-area.

Abstract: A container having an at least partly transparent hollow body and a decoration is provided. The decoration includes at least one interior lining of the hollow body so that reactions between ingredients of a product situated in the container and constituents of the decoration are prevented.

Abstract: In order to improve the energy balance of an HID lamp, the quartz burner, preferably the inside thereof, is coated with a UV reflecting layer system by alternatingly applying amorphous thin layers made at least of titanium oxide and silicon oxide having the respective general stoichiometry TiOy and SiOx by means of a plasma impulse chemical vapor deposition (PICVD) method at a high power density and increased substrate temperatures ranging from 100° to 400° C., using small growth rates ranging from 1 nm/sec to 100 nm/sec so as to form an interference layer system having a thickness of less than 1200 nm and a minimized UV-active defective spot rate ranging from 0.1 to 1 percent.

Abstract: The invention relates to a coated object in which coatings remain of a constant and unchanged high quality despite operating temperatures of more than 350° C. This is achieved with interlayers which deliberately interrupt and thereby stabilize the morphology of the coating.

Abstract: The invention relates to coating a plastic substrate for producing a coated body, to a device for carrying out such a method, and to the use thereof.