Carl Zeiss Microlmaging GmbH Patent applications |
Patent application number | Title | Published |
20130329284 | Method and Configuration for the Optical Detection of an Illuminated Specimen - A method for the optical detection of an illuminated specimen, wherein the illuminating light impinges in a spatially structured manner in at least one plane on the specimen and several images of the specimen are acquired by a detector in different positions of the structure on the specimen. An optical sectional image and/or an image with enhanced resolution is then calculated. The method includes generating a diffraction pattern in the direction of the specimen in or near the pupil of the objective lens or in a plane conjugate to the pupil. A phase plate with regions of varying phase delays is dedicated to the diffraction pattern in or near the pupil of the objective lens or in a plane conjugate to said pupil, and different phase angles of the illuminating light are set. | 12-12-2013 |
20130094755 | METHOD FOR THE MICROSCOPIC THREE-DIMENSIONAL REPRODUCTION OF A SAMPLE - A method for the three-dimensional imaging of a sample in which image information from different depth planes of the sample is stored in a spatially resolved manner, and the three-dimensional image of the sample is subsequently reconstructed from this stored image information is provided. A reference structure is applied to the illumination light, at least one fluorescing reference object is positioned next to or in the sample, images of the reference structure of the illumination light, of the reference object are recorded from at least one detection direction and evaluated. The light sheet is brought into an optimal position based on the results and image information of the reference object and of the sample from a plurality of detection directions is stored. Transformation operators are obtained on the basis of the stored image information and the reconstruction of the three-dimensional image of the is based on these transformation operators. | 04-18-2013 |
20120205519 | Method for Generating Images with an Expanded Dynamic Range and Optical Device for Carrying Out Such a Method, in Particular a Laser Scanner Microscope - Method and apparatus for generating an at least two-dimensional image of at least part of a sample. The method involves scanning the sample. Acquiring at least one light signal by an optoelectronic detector for different areas of the sample. Converting the light signal into an electrical signal. Distributing the electrical signal onto several parallel evaluation channels whose signal evaluations differ from each other so that their dynamic ranges are different. Generating a result signal in each evaluation channel. Selecting at least one of the result signals as a function of one of the result signals in order to generate the image for the sample range concerned. It is also possible to generate one intermediate result signal for each channel, typically from the respective actual result signal and one or more other sources. Thus the signal selection depending on both the result signals and the intermediate result signals are possible. | 08-16-2012 |
20110317258 | MICROSCOPE, IN PARTICULAR LASER SCANNING MICROSCOPRE - Microscope, particularly laser scanning microscope, for optical detection of light radiation excited in a specimen, having a detection beam path for detecting spectral components of the light radiation in a plurality of detection channels, wherein the light radiation arrives at a variable longpass filter or shortpass filter from which reflected and/or transmitted components are reflected back with a parallel offset, and the latter arrive at a detector after at least one back-reflection of this kind. | 12-29-2011 |
20110032614 | OPTOELECTRONIC DETECTOR ASSEMBLY AND METHOD OF OPERATING SAME - An optoelectronic detector and method of using same. In order to avoid any condensation on a surface, it has been known to heat such a surface. However, heating an optoelectronic detector will create a stronger hissing noise due to the greater dark current that is caused thereby. The invention is intended to avoid any condensation on an optoelectronic detector without airtight encapsulation. To this end, the detector is cooled and equipped with a sensor for the determination of a current value of one of the variables ambient humidity and ambient dew point temperature and a control unit that is connected with the sensor and designed to control the cooling device in dependence of such a value. By taking into account the ambient humidity or, respectively, the dew point temperature in the control of the cooling device, condensation on the detector can be avoided. An airtight encapsulation of the detector and the cooling device is not required. | 02-10-2011 |