Patents by Inventor Jens Oster
Jens Oster 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: 12517442Abstract: The present application relates to an apparatus and to a method for removing at least a single particulate from a substrate, especially an optical element for extreme ultraviolet (EUV) photolithography, wherein the apparatus comprises: (a) an analysis unit designed to determine at least one constituent of a material composition of the at least one single particulate; and (b) at least one gas injection system designed to provide a gas matched to the particular constituent in an environment of the at least one single particulate; (c) wherein the matched gas contributes to removing the at least one single particulate from the substrate.Type: GrantFiled: December 5, 2023Date of Patent: January 6, 2026Assignee: Carl Zeiss SMT GmbHInventors: Klaus Edinger, Christian Felix Hermanns, Tilo Sielaff, Jens Oster, Christof Baur, Maksym Kompaniiets
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Patent number: 12493238Abstract: A method, a device and a computer program for repairing a defect of a mask for lithography, in particular an EUV mask, are described. A method of repairing a defect of a mask for lithography, in particular an EUV mask, comprises the following steps: (a.) carrying out a first repair step on the defect using a first repair dose, wherein the defect transitions from an initial topology to a first defect topology as a result; (b.) determining an influence of the first repair step on the topology of the defect; (c.) determining a second defect topology for the defect, which is intended to be achieved by way of a second repair step on the defect; and (d.) determining a second repair dose for the second repair step, at least in part on the basis of the determined influence of the first repair step on the topology of the defect and the second defect topology. The method may further comprise step (e.) of carrying out the second repair step using the second repair dose.Type: GrantFiled: March 24, 2022Date of Patent: December 9, 2025Assignee: Carl Zeiss SMT GmbHInventors: Johannes Schöneberg, Michael Budach, Christof Baur, Jens Oster
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Publication number: 20240411223Abstract: The disclosure relates to a method for processing a lithography object. The method comprises using a particle beam and an etching gas to process a marking in order to reduce the volume of the marking, the marking having been deposited on the object and remaining on the object. The invention also relates to a corresponding computer program and a corresponding device.Type: ApplicationFiled: June 6, 2024Publication date: December 12, 2024Inventors: Jens Oster, Bartholomaeus Szafranek, Marc Hanefeld
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Publication number: 20240393269Abstract: A method for analyzing an image of a microstructured sample which comprises at least one first segment and at least one second segment which has an edge and is raised vis-à-vis the first segment, wherein the image includes a two-dimensional (2D) intensity distribution, comprising: determining edge candidates of the at least one second segment on the basis of gradients of the two-dimensional intensity distribution; determining a one-dimensional (1D) intensity distribution of the image in a direction (R) perpendicular to the edge candidates, wherein in the direction (R), the one-dimensional intensity distribution comprises a first region with a first mean intensity value (I1), the edge candidates and a second region with a second mean intensity value (I2) greater than the first mean intensity value; and determining the edge candidate which among the edge candidates is closest to the first region of the one-dimensional intensity distribution as an edge of the at least one second segment.Type: ApplicationFiled: May 22, 2024Publication date: November 28, 2024Inventors: Jens Oster, Ralf Schoenberger, Mario Laengle
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Publication number: 20240295833Abstract: The present application relates to an apparatus and to a method for removing at least a single particulate from a substrate, especially an optical element for extreme ultraviolet (EUV) photolithography, wherein the apparatus comprises: (a) an analysis unit designed to determine at least one constituent of a material composition of the at least one single particulate; and (b) at least one gas injection system designed to provide a gas matched to the particular constituent in an environment of the at least one single particulate; (c) wherein the matched gas contributes to removing the at least one single particulate from the substrate.Type: ApplicationFiled: December 5, 2023Publication date: September 5, 2024Inventors: Klaus Edinger, Christian Felix Hermanns, Tilo Sielaff, Jens Oster, Christof Baur, Maksym Kompaniiets
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Patent number: 11886126Abstract: The present application relates to an apparatus and to a method for removing at least a single particulate from a substrate, especially an optical element for extreme ultraviolet (EUV) photolithography, wherein the apparatus comprises: (a) an analysis unit designed to determine at least one constituent of a material composition of the at least one single particulate; and (b) at least one gas injection system designed to provide a gas matched to the particular constituent in an environment of the at least one single particulate; (c) wherein the matched gas contributes to removing the at least one single particulate from the substrate.Type: GrantFiled: July 7, 2021Date of Patent: January 30, 2024Assignee: Carl Zeiss SMT GmbHInventors: Klaus Edinger, Christian Felix Hermanns, Tilo Sielaff, Jens Oster, Christof Baur, Maksym Kompaniiets
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Publication number: 20230238209Abstract: An apparatus for analyzing and/or processing a sample with a particle beam, comprising: a sample stage for holding the sample; a providing unit for providing the particle beam comprising: an opening for guiding the particle beam to a processing position on the sample; and a shielding element for shielding an electric field generated by charges accumulated on the sample; wherein the shielding element covers the opening, is embodied in sheetlike fashion and comprises an electrically conductive material; wherein the shielding element comprises a convex section, this section being convex in relation to the sample stage; and wherein the convex section has a through opening for the particle beam to pass through to the sample.Type: ApplicationFiled: March 15, 2023Publication date: July 27, 2023Inventors: Nicole Auth, Michael Budach, Thorsten Hofmann, Jens Oster
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Publication number: 20220308443Abstract: A method, a device and a computer program for repairing a defect of a mask for lithography, in particular an EUV mask, are described. A method of repairing a defect of a mask for lithography, in particular an EUV mask, comprises the following steps: (a.) carrying out a first repair step on the defect using a first repair dose, wherein the defect transitions from an initial topology to a first defect topology as a result; (b.) determining an influence of the first repair step on the topology of the defect; (c.) determining a second defect topology for the defect, which is intended to be achieved by way of a second repair step on the defect; and (d.) 1 0 determining a second repair dose for the second repair step, at least in part on the basis of the determined influence of the first repair step on the topology of the defect and the second defect topology. The method may further comprise step (e.) of carrying out the second repair step using the second repair dose.Type: ApplicationFiled: March 24, 2022Publication date: September 29, 2022Inventors: Johannes Schöneberg, Michael Budach, Christof Baur, Jens Oster
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Publication number: 20220011682Abstract: The present application relates to an apparatus and to a method for removing at least a single particulate from a substrate, especially an optical element for extreme ultraviolet (EUV) photolithography, wherein the apparatus comprises: (a) an analysis unit designed to determine at least one constituent of a material composition of the at least one single particulate; and (b) at least one gas injection system designed to provide a gas matched to the particular constituent in an environment of the at least one single particulate; (c) wherein the matched gas contributes to removing the at least one single particulate from the substrate.Type: ApplicationFiled: July 7, 2021Publication date: January 13, 2022Inventors: Klaus Edinger, Christian Felix Hermanns, Tilo Sielaff, Jens Oster, Christof Baur, Maksym Kompaniiets
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Patent number: 11079674Abstract: The present invention relates to a method for ascertaining a repair shape for processing at least one defect of a photolithographic mask including the following steps: (a) determining at least one correction value for the repair shape of the at least one defect, wherein the correction value takes account of a position of at least one pattern element of the photolithographic mask, said at least one pattern element not contacting the at least one defect; and (b) correcting the repair shape by applying the at least one correction value.Type: GrantFiled: September 6, 2019Date of Patent: August 3, 2021Assignee: Carl Zeiss SMT GmbHInventors: Jens Oster, Markus Waiblinger
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Patent number: 10732501Abstract: The present application relates to a method for permanently repairing defects of absent material of a photolithographic mask, comprising the following steps: (a) providing at least one carbon-containing precursor gas and at least one oxidizing agent at a location to be repaired of the photolithographic mask; (b) initiating a reaction of the at least one carbon-containing precursor gas with the aid of at least one energy source at the location of absent material in order to deposit material at the location of absent material, wherein the deposited material comprises at least one reaction product of the reacted at least one carbon-containing precursor gas; and (c) controlling a gas volumetric flow rate of the at least one oxidizing agent in order to minimize a carbon proportion of the deposited material.Type: GrantFiled: June 26, 2019Date of Patent: August 4, 2020Assignee: Carl Zeiss SMT GmbHInventors: Jens Oster, Kinga Kornilov, Tristan Bret, Horst Schneider, Thorsten Hofmann
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Publication number: 20190391482Abstract: The present invention relates to a method for ascertaining a repair shape for processing at least one defect of a photolithographic mask including the following steps: (a) determining at least one correction value for the repair shape of the at least one defect, wherein the correction value takes account of a position of at least one pattern element of the photolithographic mask, said at least one pattern element not contacting the at least one defect; and (b) correcting the repair shape by applying the at least one correction value.Type: ApplicationFiled: September 6, 2019Publication date: December 26, 2019Inventors: Jens Oster, Markus Waiblinger
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Publication number: 20190317395Abstract: The present application relates to a method for permanently repairing defects of absent material of a photolithographic mask, comprising the following steps: (a) providing at least one carbon-containing precursor gas and at least one oxidizing agent at a location to be repaired of the photolithographic mask; (b) initiating a reaction of the at least one carbon-containing precursor gas with the aid of at least one energy source at the location of absent material in order to deposit material at the location of absent material, wherein the deposited material comprises at least one reaction product of the reacted at least one carbon-containing precursor gas; and (c) controlling a gas volumetric flow rate of the at least one oxidizing agent in order to minimize a carbon proportion of the deposited material.Type: ApplicationFiled: June 26, 2019Publication date: October 17, 2019Inventors: Jens Oster, Kinga Kornilov, Tristan Bret, Horst Schneider, Thorsten Hofmann
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Patent number: 10372032Abstract: The present application relates to a method for permanently repairing defects of absent material of a photolithographic mask, comprising the following steps: (a) providing at least one carbon-containing precursor gas and at least one oxidizing agent at a location to be repaired of the photolithographic mask; (b) initiating a reaction of the at least one carbon-containing precursor gas with the aid of at least one energy source at the location of absent material in order to deposit material at the location of absent material, wherein the deposited material comprises at least one reaction product of the reacted at least one carbon-containing precursor gas; and (c) controlling a gas volumetric flow rate of the at least one oxidizing agent in order to minimize a carbon proportion of the deposited material.Type: GrantFiled: February 24, 2017Date of Patent: August 6, 2019Assignee: Carl Zeiss SMT GmbHInventors: Jens Oster, Kinga Kornilov, Tristan Bret, Horst Schneider, Thorsten Hofmann
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Publication number: 20170248842Abstract: The present application relates to a method for permanently repairing defects of absent material of a photolithographic mask, comprising the following steps: (a) providing at least one carbon-containing precursor gas and at least one oxidizing agent at a location to be repaired of the photolithographic mask; (b) initiating a reaction of the at least one carbon-containing precursor gas with the aid of at least one energy source at the location of absent material in order to deposit material at the location of absent material, wherein the deposited material comprises at least one reaction product of the reacted at least one carbon-containing precursor gas; and (c) controlling a gas volumetric flow rate of the at least one oxidizing agent in order to minimize a carbon proportion of the deposited material.Type: ApplicationFiled: February 24, 2017Publication date: August 31, 2017Inventors: Jens Oster, Kinga Kornilov, Tristan Bret, Horst Schneider, Thorsten Hofmann