Abstract: A sensor for measuring a flow speed of a fluid medium includes a housing with a carrier membrane disposed in the housing and being essentially in a form of a vane having a circumference and at least one edge region. Holding elements are arranged over a portion of the circumference connecting the vane to the housing so that only the at least one edge region of the carrier membrane is subjected to mechanical stress caused by the housing. An electrically conductive track with feed lines is installed on the carrier membrane in a region of a neutral fiber for the carrier membrane which does not experience a mechanical strain when the carrier membrane is bent. The electrically conductive track is adapted for being heated relative to the environment by an electrical current flowing through the electrically conductive track.

Abstract: A sensor for measuring a flow speed of a fluid medium includes a housing with a carrier membrane disposed in the housing and being essentially in a form of a vane having a circumference and at least one edge region. Holding elements are arranged over a portion of the circumference connecting the vane to the housing so that only the at least one edge region of the carrier membrane is subjected to mechanical stress caused by the housing. An electrically conductive track with feed lines is installed on the carrier membrane in a region of a neutral fiber for the carrier membrane which does not experience a mechanical strain when the carrier membrane is bent. The electrically conductive track is adapted for being heated relative to the environment by an electrical current flowing through the electrically conductive track.

Abstract: In a method of manufacturing mold inserts by galvanic metal deposition a substrate consisting of an electrically conductive material which cannot be structured lithographically is structured by mechanical precision machining to provide different levels on the substrate which is then covered by an electrically insulating material which can be structured lithographically and which is fine structured by depth lithography to form cavities therein which are then filled by galvanic deposition of a metal layer. The metal structure so formed is then separated from the substrate and the electrically non-conductive material to provide the mold insert with projections of different heights.

Abstract: In a method of manufacturing frame-mounted membranes, a first membrane layer is formed on a substrate and openings are formed in this membrane layer which are then covered by a second membrane layer, a frame structure is formed on the membrane layers around the openings and the membrane layers with the frame structure are separated from the substrate to provide the frame-mounted membranes.

Abstract: In a process for finding the value of parameters which change the resonance frequencies of microstructures wherein the microstructures include at least one membrane mounted at its periphery and wherein at least one resonance frequency of the microstructures is between 100 kHz and 100 MHz, the frequency of the characteristic resonance frequency of the microstructures is detected by exposing the microstructures to ultrasound and measuring the intensity of the ultrasound transmitted through, or reflected from, the microstructure and the value of the parameter is then determined by means of a calibration curve.

Abstract: The invention relates to a method of producing microstructured metallic bodies in which plastic negative molds of the microstructures are produced on an electrically conductive base plate by means of electron beam lithography, X-ray lithography or a micromolding technique. Cavities of the negative molds are filled with metal by electroplating while employing the electrically conductive base plate as an electrode. In the course of producing the negative molds, a residual plastic layer is left at the bottom of the cavities of the negative molds on the electrically conductive base plate. Also, before the cavities of the negative molds are filled with metal by electroplating, the residual plastic layer at the bottom of the cavities is removed by means of reactive ion etching with ions that are accelerated perpendicularly toward the surface of the base plate.

Abstract: A method of producing thin sheets that are stretched over a frame and have planar and smooth surfaces with a low density of defects, and to the use of such sheets for the production of X-ray masks, wherein the sheet material is applied to a substrate through the intermediary of a release layer, whereupon the sheet is connected with the frame and separated from the substrate. During application of the release layer to the substrate, an area along the entire edge of the substrate is left free of the release layer material but is convered by the subsequently applied sheet material. Thereafter the sheet is connected with the frame in a region overlying the release layer and is severed around the periphery of the frame. Finally, the sheet and frame are released from the substrate and any release layer material remaining on the sheet is removed. The resulting sheet and frame arrangement may then be used to form an X-ray mask by applying desired X-ray absorber structures to the surface of the sheet.