Abstract: A device for identifying fingerprints by use of ultrasound having an electronic evaluating circuit, a hollow cylinder of length L with a cover and a base plate, wherein the ultrasonic speed through the liquid equals c' and the cover is made from a material with ultrasonic speed c". The outer side of the cover is planar to serve as a supporting surface for the fingerprint. The inner side is either convex (c'>c') or concave (c'<c") with a spherical radius R and the condition L=R/.vertline.(c"/c')-1.vertline. must be satisfied. The individual ultrasonic receiver is arranged in the center of the base plate and extends over the smallest possible surface area. At least one annular transmitter is arranged concentrically around the individual ultrasonic receiver.

Abstract: A plasma or photo-induced chemical vapor deposition coating process and apparatus are provided for applying thin dielectric coatings on planar, curved, and large area substrates. A plasma is generated in a tubular outer conductor. This plasma or the UV radiation occurring in the plasma passes through an opening into a reaction chamber. The opening preferably extends axially along the outer conductor and communicates with the interior of the reaction chamber. At least one component of the reaction gas is introduced directly to the opening or into the reaction gas is introduced directly to the opening or into the reaction chamber adjacent to the opening, bypassing the outer conductor. In this apparatus, the reactive deposition of a coating onto a substrate occurs only in the reaction chamber and below the opening from the outer conductor.

Abstract: A plasma or photo-induced chemical vapor deposition coating process and apparatus are provided for applying thin dielectric coatings on planar, curved, and large area substrates. A plasma is generated in a tubular outer conductor. This plasma or the UV radiation occurring in the plasma passes through an opening into a reaction chamber. The opening preferably extends axially along the outer conductor and communicates with the interior of the reaction chamber. At least one component of the reaction gas is introduced directly to the opening or into the reaction chamber adjacent to the opening, bypassing the outer conductor. In this apparatus, the reactive deposition of a coating onto a substrate occurs only in the reaction chamber and below the opening from the outer conductor.

Abstract: A plasma process and apparatus are provided for coating one or more planar substrates by a plasma-induced chemical vapor deposition in which plasma electrodes provide a plurality of overlapping plasma columns which extend over the entire surface of the substrate to be coated. A plurality of plasma electrodes are fixed in planes above, between, or below the substrates, and the individual plasma electrodes can be separately controlled. With a plasma pulse/CVD process, the spacing and angle between the substrates can be varied to alter the thickness of the coating. The process can be used for coating large area, planar vitreous bodies with multilayer optical coatings.

Abstract: A process is provided for producing a planar glass substrate coated with a dielectric layer system in which the individual layers are formed by a chemical vapor deposition coating process. After the layers have been applied, the glass substrate is either drawn, compressed, or its surface enlarged until the coating layers are reduced in thickness. A planar glass substrate having a multiplicity of extremely thin dielectric layers can be fabricated according to this process.

Abstract: A planar lightwave guide with light-conducting core zones in light conducting strips is made by the precipitation out of a gaseous phase onto a substrate a thin, glass-like strata in accordance with a programmed schedule so as to allow a predetermined refractive index curve to be obtained to thereby form a light-conducting core zone and protective sheathing layers adjacent to the core zone. The improvement in the method is characterized in that the precipitation out of the gaseous phase is obtained by application of a heterogeneous reaction and in that after the formation of the light-conducting strips, the refractive index of the core-forming strata is modified in a targeted manner in a lateral marginal region of the strips by diffusing out the doping substance which determines the refractive index curve in the core zones. Subsequently these strips and the substrate are coated with a covering layer of a material having a lower refractive index than that of the core zone material.

Abstract: A method of making a planar lightwave-guide with light-conducting core zones by precipitation out of a gaseous phase a thin, glass-like strata onto a substrate in accordance with a controlled schedule so as to allow a predetermined refractive index curve to be obtained to thereby form a light-conducting core zone and sheathing layer adjacent to the core zone. The improvement is characterized in that the precipitation out of the gaseous phase is obtained by application of a heterogeneous reaction and in that initially a first layer with a doping medium which decreases the refractive index is applied to the substrate and thereafter a masking layer is applied on top of the first layer to act as a diffusion barrier with respect to the doping medium. The masking layer is structured by conventional masking technology in accordance with a desired strip or band pattern.

Abstract: A device for deflecting light through 180.degree. characterized by a directional coupler comprising a pair of strip waveguides formed on a substrate with the end faces of the pair of strip waveguides being provided with a mirror. The directional coupler may be formed as a half of a coupler with the mirror effectively bisecting the length of the coupler, or it may be a .DELTA..beta. reversible directional coupler which is the whole length or as a half of a directional coupler. In addition, the directional coupler may be a controllable power dividing coupler and a phase shifter may be applied on one of the waveguides of the coupler. The device can also be utilized in a spectral comb filter.