Abstract: In a method for the production of window elements which can be soldered into a housing in a hermetically tight manner and of a window element sealing a housing, the object of the invention is to achieve an improved hermetic sealing between window and housing through increased adherence and homogeneity in the metal coating and to prevent penetration of scattered light and unwanted radiation. Optically transparent, flat substrate material whose size is sufficient for a plurality of window elements is provided on at least one surface with an optical coating from which frame-like portions on a coated surface which enclose optically active surfaces of the window elements are subsequently removed, whereupon a metal coating that is used for producing a solder connection to the housing is applied to the generated portions having no coating, and the window elements are separated from the substrate material.

Abstract: A laser scanning microscope comprises at least one selectively switchable micro-mirror arrangement (DMD) in the illumination beam path and/or detection beam path which is used for the wavelength selection of dispersively divided illumination and/or object light such as reflection, fluorescence.

Abstract: A laser scanning microscope comprises at least one selectively switchable micro-mirror arrangement (DMD) in the illumination beam path and/or detection beam path which is used for the wavelength selection of dispersively divided illumination and/or object light such as reflection, fluorescence.

Abstract: In a method for the production of window elements which can be soldered into a housing in a hermetically tight manner and of a window element sealing a housing, the object of the invention is to achieve an improved hermetic sealing between window and housing through increased adherence and homogeneity in the metal coating and to prevent penetration of scattered light and unwanted radiation. Optically transparent, flat substrate material whose size is sufficient for a plurality of window elements is provided on at least one surface with an optical coating from which frame-like portions on a coated surface which enclose optically active surfaces of the window elements are subsequently removed, whereupon a metal coating that is used for producing a solder connection to the housing is applied to the generated portions having no coating, and the window elements are separated from the substrate material.

Abstract: The invention relates to a method for stimulating specific areas of a brain using an induction device, comprising the following steps: recording the spatial structure of the head, in particular the brain; generating a simulation model of the induction device; and arranging the induction device relative to the head such that a specific area of the brain determined by means of the simulation model of the induction device is stimulated by a current flowing in the induction device, as well as to a method for stimulating specific areas of a brain using an induction device, comprising the following steps: recording the spatial structure of the head, in particular the brain; generating a simulation model of the head; and arranging the induction device relative to the head such that a specific area of the brain determined by means of the simulation model of the head is stimulated by a current flowing in the induction device, as well as to a device for stimulating specific areas of a brain using an induction device co

Abstract: A laser scanning microscope comprises at least one selectively switchable micro-mirror arrangement (DMD) in the illumination beam path and/or detection beam path which is used for the wavelength selection of dispersively divided illumination and/or object light such as reflection, fluorescence.

Abstract: A process for displaying three-dimensional point distributions in a laser scanning microscope with a tiltable fine focusing stage, wherein an actual scanned first raster point distribution is compared with a computer generated second raster point distribution, and the first raster points are utilized for display in the second raster point distribution when the raster points in both distributions correspond with one another, while intermediate values are formed from points of the first raster point distribution lying in the vicinity of second raster points when there is no correspondence, wherein the position of these intermediate values corresponds to the position of the second raster points, or a displacement of the X/Y-scanner of the microscope and/or of the stage tilting means is carried out in a particularly advantageous manner with reference to a computer-determined two- or three-dimensional raster point distribution in such a way that the scanned raster points in and/or on an object correspond completel

Abstract: The invention relates to a method for stimulating specific areas of a brain using an induction device (1), comprising the following steps: recording the spatial structure of the head, in particular the brain; generating a simulation model of the induction device (1); and arranging the induction device (1) relative to the head such that a specific area of the brain determined by means of the simulation model of the induction device (1) is stimulated by a current flowing in the induction device (1), as well as to a method for stimulating specific areas of a brain using an induction device (1), comprising the following steps: recording the spatial structure of the head, in particular the brain; generating a simulation model of the head; and arranging the induction device (1) relative to the head such that a specific area of the brain determined by means of the simulation model of the head is stimulated by a current flowing in the induction device (1), as well as to a device for stimulating specific areas of a br

Abstract: The invention relates to a method for stimulating specific areas of a brain using an induction device, comprising the following steps: recording the spatial structure of the head, in particular the brain; generating a simulation model of the induction device; and arranging the induction device relative to the head such that a specific area of the brain determined by means of the simulation model of the induction device is stimulated by a current flowing in the induction device, as well as to a method for stimulating specific areas of a brain using an induction device, comprising the following steps: recording the spatial structure of the head, in particular the brain; generating a simulation model of the head; and arranging the induction device relative to the head such that a specific area of the brain determined by means of the simulation model of the head is stimulated by a current flowing in the induction device, as well as to a device for stimulating specific areas of a brain using an induction device co

Abstract: A laser scanning microscope comprises at least one selectively switchable micro-mirror arrangement (DMD) in the illumination beam path and/or detection beam path which is used for the wavelength selection of dispersively divided illumination and/or object light such as reflection, fluorescence.

Abstract: A process for displaying three-dimensional point distributions in a laser scanning microscope with a tiltable fine focusing stage, wherein an actual scanned first raster point distribution is compared with a computer-generated second raster point distribution, and the first raster points are utilized for display in the second raster point distribution when the raster points in both distributions correspond with one another, while intermediate values are formed from points of the first raster point distribution lying in the vicinity of second raster points when there is no correspondence, wherein the position of these intermediate values corresponds to the position of the second raster points, or a displacement of the X/Y-scanner of the microscope and/or of the stage tilting means is carried out in a particularly advantageous manner with reference to a computer-determined two- or three-dimensional raster point distribution in such a way that the scanned raster points in and/or on an object correspond completel

Abstract: A process for displaying three-dimensional point distributions in a laser scanning microscope with a tiltable fine focusing stage, wherein an actual scanned first raster point distribution is compared with a computer-generated second raster point distribution, and the first raster points are utilized for display in the second raster point distribution when the raster points in both distributions correspond with one another, while intermediate values are formed from points of the first raster point distribution lying in the vicinity of second raster points when there is no correspondence, wherein the position of these intermediate values corresponds to the position of the second raster points, or a displacement of the X/Y-scanner of the microscope and/or of the stage tilting means is carried out in a particularly advantageous manner with reference to a computer-determined two- or three-dimensional raster point distribution in such a way that the scanned raster points in and/or on an object correspond completel

Abstract: The invention relates to a method for stimulating specific areas of a brain using an induction device (1), comprising the following steps: recording the spatial structure of the head, in particular the brain; generating a simulation model of the induction device (1); and arranging the induction device (1) relative to the head such that a specific area of the brain determined by means of the simulation model of the induction device (1) is stimulated by a current flowing in the induction device (1), as well as to a method for stimulating specific areas of a brain using an induction device (1), comprising the following steps: recording the spatial structure of the head, in particular the brain; generating a simulation model of the head; and arranging the induction device (1) relative to the head such that a specific area of the brain determined by means of the simulation model of the head is stimulated by a current flowing in the induction device (1), as well as to a device for stimulating specific areas of a br