Abstract: A method for manufacturing an integrated circuit including at least one storage cell is provided. The method includes providing a substrate having a first and second side, and a plurality of parallel trenches so that a dividing wall is formed between adjacent trenches, filling the trenches with an insulating compound, providing a first insulating layer having a first and second side on the top surface of the dividing wall, wherein the first side is arranged on the substrate's first side, providing a first conductive layer having a first and second side, wherein the first side is arranged on the insulating layer's second side, wherein the conductive layer protrudes from the substrate surface, providing a second conductive layer having a first and second side, wherein the first side is located on the first conductive layer's second side, and removing parts of the second conductive layer by an anisotropic etching means.

Abstract: The invention relates to an operating method for a microfluidic system, including the following steps: feeding of a carrier flow with particles (5) of a first particle type suspended therein into the microfluidic system; charging of a plurality of electrical field cages (1?, 1?) in the microfluidic system with the supplied particles (5) of the first particle type; the supplying of a carrier flow with particles (6) of a second particle type suspended therein into the microfluidic system; and charging the field cages (1?, 1?) in the microfluidic system with the supplied particles (6) of the second particle type in such a manner that a particle (5) of the first particle type and a particle (6) of the second particle type is present in at least one of the field cages (1?, 1?). The invention also relates to a corresponding microfluidic system.

Abstract: A network bridge comprising two ports for connection to two networks, a spanning tree controller and a wireless bridge link controller for each port. The ports employ an adaptive modulation technique. The wireless bridge link controller is connected to the port to exchange physical layer information with said port. When the port detects a change of its PHY mode, it sets the path cost of the link to a value configured for the new PHY mode and forces the bridge to recalculate its spanning tree. The wireless bridge link controller is also connected to the spanning tree controller. If the bridge detects that it has not received BPDUs for a certain time period and the timer will expire soon, the bridge forces the port, via the wireless bridge link controller, to use a more robust PHY mode.

Abstract: The invention relates to a measuring probe device for a probe microscope, in particular a scanning probe microscope, with a measuring probe holder and a measuring probe arranged on the measuring probe holder, which is set up for a probe microscopic investigation of a sample, wherein on the measuring probe holder, a measuring probe chamber is formed, which receives the measuring probe at least partially and is open on a side away from the measuring probe holder, and is configured to receive a liquid surrounding the measuring probe. The invention also relates to a measuring cell for receiving a liquid sample for a probe microscope, a scanning probe microscope with a measuring probe device and a scanning probe microscope with a measuring cell.

Abstract: The invention relates to a method for the combined analysis of a sample with objects to be analysed, in particular a sample with biological objects, in which measurement results for one or more of the objects to be analysed in the sample are obtained by analysing the one or more objects to be analysed by an imaging method of measurement, probe-microscopic measurement results are obtained for the one or more objects to be analysed by analysing the one or more objects to be analysed by a probe-microscopic method of measurement, and the measurement results and the probe-microscopic measurement results are assigned to one another, after optional prior intermediate processing. Furthermore, the invention relates to an apparatus for carrying out combined analysis of a sample with objects to be investigated, in particular a sample with biological objects.

Abstract: The invention relates to an electric field cage (6) for spatially fixing particles (2, 3) which are suspended in a carrier liquid, in particular in a microfluidic system, including a plurality of cage electrodes (7, 8), which can be electrically driven, for generating a capture field. It is proposed that at least one of the cage electrodes (8) is annular and surrounds the other cage electrode (7). The invention also covers an associated operating method.

Abstract: A method for high-resolution image recording of at least one object with a microscope, includes the steps of: (a) positioning the object in a receptacle being arranged in the optical axis of the microscope, (b) generating at least two first data sets per object which represent intermediate images of the object with at least two different orientations relative to the optical axis of the microscope, wherein the different orientations of the object are provided by moving the object relative to the receptacle, and (c) evaluating the data sets for obtaining quantitative three dimensional information.

Abstract: Method and arrangement for making electrical contact with a membrane-enveloped object using an electrode The invention relates, inter alia, to a method for making electrical contact with a membrane-enveloped object (30) using an electrode (10, 100). According to the invention, it is provided that at least one electrode (100) comprising a conductive carrier (110) is used for making contact, on which carrier a multiplicity of nanoneedles (120) are arranged and on which carrier adjacent nanoneedles are at a distance from one another which is smaller than the size of the object, and that the object is brought into contact with the nanoneedles.

Abstract: A memory cell array includes a number of memory cells, each of the memory cells including a source and a drain region defined by corresponding bitlines within a semiconductor substrate. Each of the bitlines has a doped semiconductor region as well as a conductive region in direct electrical contact with the doped semiconductor region.

Abstract: The bit lines are produced by an implantation of a dopant by means of a sacrificial hard mask layer, which is later replaced with the gate electrodes formed of polysilicon in the memory cell array. Striplike areas of the memory cell array, which run transversely to the bit lines, are reserved by a blocking layer to be occupied by the bit line contacts. In these areas, the hard mask is used to form contact holes, which are self-aligned with the implanted buried bit lines. Between the blocked areas, the word lines are arranged normally to the bit lines.

Abstract: A method for manufacturing an integrated circuit including at least one storage cell is provided. The method includes providing a substrate having a first and second side, and a plurality of parallel trenches so that a dividing wall is formed between adjacent trenches, filling the trenches with an insulating compound, providing a first insulating layer having a first and second side on the top surface of the dividing wall, wherein the first side is arranged on the substrate's first side, providing a first conductive layer having a first and second side, wherein the first side is arranged on the insulating layer's second side, wherein the conductive layer protrudes from the substrate surface, providing a second conductive layer having a first and second side, wherein the first side is located on the first conductive layer's second side, and removing parts of the second conductive layer by an anisotropic etching means.

Abstract: The present invention relates to a method for providing a measuring probe (1, 1a, 2) for a probe microscopic examination of a sample in a probe microscope, in particular a scanning probe microscope, in which the measuring probe (1), which has a probe base (1a) and a probe extension (2) formed thereon, is held on a carrier device and the measuring probe (1) is processed before or after a measurement by detaching a section of the probe extension (2). The invention further relates to an arrangement having a probe microscope for the probe microscopic examination of a sample, in particular a scanning probe microscope.

Abstract: The invention relates to a module for a measuring device and to a measuring device. The inventive module for a measuring device is provided with a plug-in contact element for the electrical contact of the plug-and-socket plate of the measuring device which is used for data transfer. Said module for the measuring device comprises a main circuit card arranged in the first circuit card space. Said first circuit card space is formed by at least one first element of the body which encompasses the circuit card in a closed manner on the level of the external periphery thereof.

Abstract: The invention relates to a micro-fluidic system including a fluid medium channel that holds a fluid medium containing particles in suspension. According to the invention, the fluid medium channel has an expanded section with an enlarged cross-section along part of its length, in order to reduce the flow speed to allow the analysis of the particles.

Abstract: A semiconductor product includes, a substrate with a first dielectric layer having contact hole fillings for contacting active areas in the substrate. A second dielectric layer with contact holes is provided therein. The contact holes have a width in a first lateral direction. The product further includes conductive lines, each conductive line passing over contact holes in the second dielectric layer and contacting a plurality of contact hole fillings in the first dielectric layer. The conductive lines have a width, in the first lateral direction, that is smaller than the width of the contact holes of the second dielectric layer. The conductive lines are in direct mechanical contact with the contact hole fillings and thereby remove the need to provide any conventional “contact to interconnect” structures.

Abstract: The invention relates to a particle injector for introducing particles into a carrier flow of a microfluidic system, especially for injecting biological cells into the carrier flow of a cell sorter. The particle injector includes an inlet for receiving the carrier flow, an outlet for discharging the carrier flow including the introduced particles, a carrier flow channel which connects the inlet to the outlet, and an injection channel flowing into the carrier flow channel for introducing the particles into the carrier flow. The inventive particle injector is characterized in that the carrier flow channel has substantially no dead volume.

Abstract: A method is described for non-destructive measurement of vitality of biological cells, especially for determination of apoptosis, in which the at least one cell is exposed to high-frequency alternating, especially rotating, electric fields and/or impedance test fields, and at least one rotation measurement, one dielectrophoresis measurement and/or one impedance measurement is performed with the cell for at least one frequency range or individual frequencies, from which at least one measurement parameter is determined that is characteristic of the vitality state of the cell.

Abstract: A coupling device (100), particularly for liquid-tight coupling of at least one liquid line (10) to a fluidic system (20), is described, which comprises: at least one sealing device (30), which is implemented to receive an end region (11) of the liquid line (10) and has a first sealing surface (31) for placement on an external surface (22) of the fluidic system in such a way that the end of the liquid line (10) is laterally enclosed by the first sealing surface (31) and points toward an opening (23) in the external surface (22), and a clamping device (40), using which the sealing device (30) may be pressed against the fluidic system (20), so that the first sealing surface (31) produces a liquid-tight connection with the external surface (22).

Abstract: The invention relates to a microfluidic system containing a carrier current channel (1) for receiving a carrier current containing particles suspended therein, and at least one electrode arrangement (3) which is arranged in the carrier current channel and used to manipulate the suspended particles (2), the electrode arrangement (3) containing two manipulation electrodes (4, 5). According to the invention, the electrode arrangement (3) contains two centering electrodes (6, 7), in addition to the two manipulation electrodes (4, 5), for centering the particles, the two centering electrodes (6, 7) being arranged in the carrier current channel (1) respectively upstream of one of the two manipulation electrodes (4, 5). The invention also relates to a corresponding control method.

Abstract: The invention relates to a module for a measuring device and to a measuring device. The inventive module for a measuring device is provided with a plug-in contact element for the electrical contact of the plug-and-socket plate of the measuring device which is used for data transfer. Said module for the measuring device comprises a main circuit card arranged in the first circuit card space. Said first circuit card space is formed by at least one first element of the body which encompasses the circuit card in a closed manner on the level of the external periphery thereof.