Patents by Inventor Gereon Hüttmann
Gereon Hüttmann has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11421979Abstract: The invention relates to a method for creating a two-dimensional interferogram with a Michelson-type free-beam interferometer, comprising an extended, partially spatially coherent light source and a two-dimensional light detector, wherein light from the light source is split by a beam splitter with a semitransparent beam splitter mirror into a sample light beam and a reference light beam and taken to a sample arm and a reference arm, wherein the sample light beam returning from a sample is directed by the beam splitter mirror onto the light detector, wherein the reference light beam emerging from the reference arm makes a predetermined angle greater than zero with the sample light beam on the light detector, and wherein the length of the reference arm is variable, where the reference light beam is directed by means of an odd number of reflections in each reflection plane in at least one reference arm section so that it is displaced laterally to itself and travels antiparallel through a light-deflecting elemenType: GrantFiled: January 25, 2019Date of Patent: August 23, 2022Assignee: VISOTEC GMBHInventors: Michael Münst, Helge Sudkamp, Peter Koch, Gereon Hüttmann
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Publication number: 20210310958Abstract: The invention relates to a dosimeter material for ammonia and/or amines, the indicator used, as well as processes for their manufacture and use, in particular for quality control of foodstuffs. The dosimeter material for ammonia and/or amines, in particular in the gas phase, comprises an indicator which undergoes an irreversible color change in the presence of ammonia and/or amines, and an immobilization matrix for the indicator that is permeable to ammonia and/or amines, wherein the immobilization matrix is water-impermeable, and wherein the indicator comprises a phosphorus porphyrin activated by covalent bonding to a silanol group and having the formula porphyrin-P(V)X3, wherein X is Cl or Br.Type: ApplicationFiled: July 26, 2019Publication date: October 7, 2021Inventors: Ramtin Rahmanzadeh, Gereon Huettmann, Christian Schell
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Publication number: 20210038074Abstract: The invention relates to a full-field OCT method for generating an imaging of an ocular fundus (31), in which short-coherent light (22) is emitted and split into an object beam path (25) and a reference beam path (24). The object beam path (25) is directed onto the ocular fundus (33). The reference beam path (24) and a portion of the object beam path (25) reflected by the ocular fundus (31) are directed onto an image sensor (32), such that an interference between the reference beam path (24) and the object beam path (25) occurs on the image sensor (32), wherein the reference beam path (24) impinges on the image sensor (32) at an angle deviating from the object beam path (25). Before impinging on the image sensor (32), the reference beam path (24) impinges on an optical correction element (27) in order to reduce a chromatic aberration within the reference beam path (24). Intensity information and phase information is determined from a capturing of the image sensor.Type: ApplicationFiled: January 23, 2019Publication date: February 11, 2021Inventors: Peter Koch, Gereon Hüttmann, Helge Sudkamp, Hendrik Spahr, Dierck Hillmann, Michael Münst
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Publication number: 20200393236Abstract: The invention relates to a method for creating a two-dimensional interferogram with a Michelson-type free-beam interferometer, comprising an extended, partially spatially coherent light source and a two-dimensional light detector, wherein light from the light source is split by a beam splitter with a semitransparent beam splitter mirror into a sample light beam and a reference light beam and taken to a sample arm and a reference arm, wherein the sample light beam returning from a sample is directed by the beam splitter mirror onto the light detector, wherein the reference light beam emerging from the reference arm makes a predetermined angle greater than zero with the sample light beam on the light detector, and wherein the length of the reference arm is variable, where the reference light beam is directed by means of an odd number of reflections in each reflection plane in at least one reference arm section so that it is displaced laterally to itself and travels antiparallel through a light-deflecting elemenType: ApplicationFiled: January 25, 2019Publication date: December 17, 2020Inventors: Michael MÜNST, Helge SUDKAMP, Peter KOCH, Gereon HÜTTMANN
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Patent number: 10743766Abstract: A parallel detecting optical coherence tomography (OCT) setup and method, in which the light paths of the illumination of the sample and of the detection of the backscattered light do not use the same apertures. The separation of illumination and detection apertures filters these disturbing reflexes from the backscattered light of the sample and significantly increases image quality.Type: GrantFiled: August 29, 2018Date of Patent: August 18, 2020Assignee: THORLABS GMBHInventors: Dierck Hillmann, Gereon Hüttmann, Gesa Lilith Franke, Helge Sudkamp, Laura Hinkel, Peter Koch, Jörn Wollenzin
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Patent number: 10682052Abstract: The invention relates to an interferometric method, in which the light scattered by an object is imaged onto an electronic camera, wherein a sample light component is assigned to scattering sites on a sectional face in the interior of the object. This sample light component can be separated from the contributions of the other sample light components by processing of the camera image and leads to a sectional image. A particular advantage of the invention lies in the fact that multiple parallel sectional faces can be exposed sequentially at predetermined intervals from each other in the interior of the object. Such a sequence of sectional images can be used to calculate a solid model of the object.Type: GrantFiled: August 9, 2016Date of Patent: June 16, 2020Assignees: Medizinisches Laserzentrum Luebeck GmbH, Thorlabs GmbHInventors: Peter Koch, Gesa Franke, Hendrik Spahr, Helge Sudkamp, Gereon Hüttmann, Dierck Hillmann, Reginald Birngruber
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Publication number: 20180368680Abstract: A parallel detecting optical coherence tomography (OCT) setup and method, in which the light paths of the illumination of the sample and of the detection of the backscattered light do not use the same apertures. The separation of illumination and detection apertures filters these disturbing reflexes from the backscattered light of the sample and significantly increases image quality.Type: ApplicationFiled: August 29, 2018Publication date: December 27, 2018Inventors: Dierck HILLMANN, Gereon HÜTTMANN, Gesa Lilith FRANKE, Helge SUDKAMP, Laura HINKEL, Peter KOCH, Jörn WOLLENZIN
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Patent number: 10070788Abstract: A parallel detecting optical coherence tomography (OCT) setup and method, in which the light paths of the illumination of the sample and of the detection of the backscattered light do not use the same apertures. The separation of illumination and detection apertures filters these disturbing reflexes from the backscattered light of the sample and significantly increases image quality.Type: GrantFiled: January 30, 2015Date of Patent: September 11, 2018Assignee: THORLABS GMBHInventors: Dierck Hillmann, Gereon Hüttmann, Gesa Lilith Franke, Helge Sudkamp, Laura Hinkel, Peter Koch, Jörn Wollenzin
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Publication number: 20180235461Abstract: The invention relates to an interferometric method, in which the light scattered by an object is imaged onto an electronic camera, wherein a sample light component is assigned to scattering sites on a sectional face in the interior of the object. This sample light component can he separated from the contributions of the other sample light components by processing of the camera image and leads to a sectional image. A particular advantage of the invention lies in the fact that multiple parallel sectional faces can be exposed sequentially at predetermined intervals from each other in the interior of the object. Such a sequence of sectional images can be used to calculate a solid model of the object. The invention is applicable in particular to the live retina and allows a three-dimensional retina scan within a few seconds with a cost-effective and, if necessary, hand-held device. Application options are in the fields of ophthalmology and in biometry.Type: ApplicationFiled: August 9, 2016Publication date: August 23, 2018Applicants: Thorlabs GmbH, Medizinisches Laserzentrum Lübeck GmbHInventors: Peter KOCH, Gesa FRANKE, Hendrik SPAHR, Helge SUDKAMP, Gereon HÜTTMANN, Dierck HILLMANN, Reginald BIRNGRUBER
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Publication number: 20150216412Abstract: A parallel detecting optical coherence tomography (OCT) setup and method, in which the light paths of the illumination of the sample and of the detection of the backscattered light do not use the same apertures. The separation of illumination and detection apertures filters these disturbing reflexes from the backscattered light of the sample and significantly increases image quality.Type: ApplicationFiled: January 30, 2015Publication date: August 6, 2015Inventors: Dierck HILLMANN, Gereon HÜTTMANN, Gesa Lilith FRANKE, Helge SUDKAMP, Laura HINKEL, Peter KOCH, Jörn WOLLENZIN
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Patent number: 8774904Abstract: A device for examining or treating living tissue by means of local heating of the tissue by absorbing electromagnetic radiation, with at least one radiation source emitting electromagnetic radiation, a control unit for controlling the irradiation parameters of the radiation source, and at least one FD-OCT apparatus with a light source emitting a measurement light for illuminating that tissue region in which the electromagnetic radiation is absorbed by the tissue, characterized by a computational unit for carrying out the following steps: determining the depth-resolved tissue velocity in the radiation direction of the measurement light at a predetermined measurement point of the tissue from the phase information from the FD-OCT interference light, integrating the established tissue velocity over time, differentiating the calculated time integral with respect to space, and displaying the spatial derivative as a function of space and time and/or feeding the spatial derivative as a function of space and time to aType: GrantFiled: April 16, 2011Date of Patent: July 8, 2014Assignee: Medizinisches Laserzentrum Luebeck GmbHInventors: Reginald Birngruber, Ralf Brinkmann, Gereon Huettmann, Heike Mueller
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Publication number: 20130102894Abstract: A device for examining or treating living tissue by means of local heating of the tissue by absorbing electromagnetic radiation, with at least one radiation source emitting electromagnetic radiation, a control unit for controlling the irradiation parameters of the radiation source, and at least one FD-OCT apparatus with a light source emitting a measurement light for illuminating that tissue region in which the electromagnetic radiation is absorbed by the tissue, characterized by a computational unit for carrying out the following steps: determining the depth-resolved tissue velocity in the radiation direction of the measurement light at a predetermined measurement point of the tissue from the phase information from the FD-OCT interference light, integrating the established tissue velocity over time, differentiating the calculated time integral with respect to space, and displaying the spatial derivative as a function of space and time and/or feeding the spatial derivative as a function of space and time to aType: ApplicationFiled: April 16, 2011Publication date: April 25, 2013Applicant: MEDIZINISCHES LASERZENTRUM LUEBECK GMBHInventors: Reginald Birngruber, Ralf Brinkmann, Gereon Huettmann, Heike Mueller
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Patent number: 7961333Abstract: A method is provided for the electronic scanning of the intensity distribution of an optical interference pattern by means of a linear image sensor, wherein the interference pattern is produced by overlapping two temporally partly coherent beams striking at an arbitrarily predefined angle ? in relation to one another and is provided with an interference strip having a carrier frequency greater than the scanning frequency, and amplitude modulation that can be varied slowly in relation to the pixel width, wherein at least one optical grating is disposed in the beam path of at least one of two incident beams and the image sensor is disposed in the diffraction image of the grating(s) such that, at the site of the image sensor, the beams interfere, and the beams enclose an angle ? at the site of the image sensor, the angle being smaller than ?.Type: GrantFiled: July 4, 2007Date of Patent: June 14, 2011Assignee: Universitaet Zu LuebeckInventors: Gereon Huettmann, Peter Koch
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Publication number: 20100292539Abstract: An apparatus for optical coherence tomography has a broadband light source with a short coherence length, an optical fiber that guides the light from the light source to a focusing optics, and a graded-index optics arranged between the optical fiber and the focusing optics with two opposite parallel flat sides, that is contacted on its first flat side by the optical fiber forming an irradiation point guiding light to the graded-index optics and having a pitch of N/8, N being a natural number that cannot be divided by 4. A first structure for light reflection is arranged on the first flat side of the graded-index optics adjacent to the irradiation point, and a second structure for beam splitting is arranged on the second flat side of the graded-index optics. The focusing optics are designed for focusing the light transmitted by the second structure essentially at right angles to the flat sides of the graded-index optics.Type: ApplicationFiled: May 14, 2010Publication date: November 18, 2010Applicant: Medizinisches Laserzentrum Luebeck GmbHInventors: Eva Lankenau, Tim Bonin, Gereon Huettmann
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Publication number: 20100020328Abstract: A method is provided for the electronic scanning of the intensity distribution of an optical interference pattern by means of a linear image sensor, wherein the interference pattern is produced by overlapping two temporally partly coherent beams striking at an arbitrarily predefined angle ? in relation to one another and is provided with an interference strip having a carrier frequency greater than the scanning frequency, and amplitude modulation that can be varied slowly in relation to the pixel width, wherein at least one optical grating is disposed in the beam path of at least one of two incident beams and the image sensor is disposed in the diffraction image of the grating(s) such that, at the site of the image sensor, the beams interfere, and the beams enclose an angle ? at the site of the image sensor, the angle being smaller than ?.Type: ApplicationFiled: July 4, 2007Publication date: January 28, 2010Applicant: UNIVERSITAET ZU LUEBECKInventors: Gereon Huettmann, Peter Koch
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Patent number: 7484665Abstract: This invention relates to a method for reading, while using optical interference, a barcode that extends into the depth of a substrate. The barcode is represented by an area with marks in the substrate that is partially transparent to electromagnetic radiation. The inventive method comprises the steps of irradiating the substrate with short coherence length light from a broad-band light source, dividing the light up into reference light and measuring light, returning the reference light and the measuring light back-scattered or reflected in the marked area to an analytical unit, determining the reflectance or the reflectivity of the substrate for all layer depths in the marked area from the interference of the reference light and the measuring light and interpreting the result as a barcode.Type: GrantFiled: March 13, 2004Date of Patent: February 3, 2009Assignee: Medizinisches Laserzentrum LuebeckInventors: Peter Koch, Gereon Huettmann, Edmund Koch, Eva Lankenau
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Patent number: 6970620Abstract: In the region of a distal end at its circumference the waveguide is formed transparent to the radiation which impinges onto the surface of the waveguide at suitable angles, and in the region of the distal end in the inside of the waveguide there are arranged scatter elements which scatter radiation transmitted by the waveguide in the direction of the distal end in a direction with a proximally directed component which exits the circumference of the waveguide. Alternatively, radiation entering into the waveguide at the circumference of the waveguide in a direction with a distally directed component is transmitted by the waveguide in the direction of the proximal end, as well as to its use and to a method for its manufacture.Type: GrantFiled: April 3, 2003Date of Patent: November 29, 2005Assignee: Richard Wolf GmbHInventors: Lars Ziegenhagen, Gereon Hüttmann