Patents by Inventor Yehuda Zur
Yehuda Zur 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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Publication number: 20240136150Abstract: A method of milling a diagonal cut in a region of a sample, the method comprising: positioning the sample in a processing chamber having a charged particle beam column; moving the region of the sample under a field of view of the charged particle column; generating a charged particle beam with the charged particle beam column and scanning the charged particle beam over the region of the sample along scan lines arranged parallel to a slope of the diagonal cut; and repeating the generating and scanning step a plurality of times to mill the diagonal cut in the region of the sample; wherein, for each iteration of the generating and scanning steps, a velocity of the charged particle beam is slower when the beam is near a deep end of the diagonal cut than when the beam is near a shallow end of the diagonal cut.Type: ApplicationFiled: October 23, 2022Publication date: April 25, 2024Applicant: APPLIED MATERIALS ISRAEL LTD.Inventor: Yehuda Zur
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Publication number: 20240105421Abstract: A method of depositing material over a localized region of a sample comprising: positioning a sample within a vacuum chamber such that the localized region is under a field of view of a charged particle beam column; injecting a deposition precursor gas, with a gas injection nozzle, into the vacuum chamber at a location adjacent to the deposition region; generating a charged particle beam with the charged particle beam column and focusing the charged particle beam within the deposition region of the sample; and scanning the charged particle beam across the deposition region of the sample to activate molecules of the deposition gas that have adhered to the sample surface in the deposition region and deposit material on the sample within the deposition region; and applying a negative bias voltage to the gas injection nozzle while the focused ion beam is scanned across the deposition region to alter a trajectory of the secondary electrons and repel the secondary electrons back to the sample surface.Type: ApplicationFiled: September 22, 2022Publication date: March 28, 2024Applicant: APPLIED MATERIALS ISRAEL LTD.Inventor: Yehuda Zur
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Publication number: 20240096592Abstract: A gas injection nozzle that includes an elongated gas conduit that comprises: a first gas conduit segment configured to be coupled with a gas reservoir; a second gas conduit segment fluidly coupled to the first gas conduit segment and defining a downward curve of the elongated gas conduit; a third gas conduit segment defining an upward curve of the elongated gas conduit that extends to a sealed end and is disposed in a mirrored relationship with at least a portion of the second gas conduit; and a central gas conduit segment coupled between the second and third gas conduit segments, the central gas conduit segment having a first aperture formed in an upper surface of the central gas conduit and a second aperture, larger than the first aperture, formed in a lower surface of the central gas conduit directly across from the first aperture, wherein the elongated gas conduit has a first diameter along a portion of its length that includes at least the second, third and central gas conduit segments and wherein the cType: ApplicationFiled: September 15, 2022Publication date: March 21, 2024Applicant: APPLIED MATERIALS ISRAEL LTD.Inventor: Yehuda Zur
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Publication number: 20240062990Abstract: A system for depositing material over a sample in a localized region of the sample, the system including: a vacuum chamber; a thermal mass disposed outside the vacuum chamber; a sample support configured to hold a sample within the vacuum chamber during a sample evaluation process; a charged particle beam column configured to direct a charged particle beam into the vacuum chamber toward the sample such that the charged particle beam collides with the sample in a deposition region; a gas injection system configured to deliver a process gas to the deposition region of the sample; and a thermal isolation shield spaced apart from and disposed between the gas injection system and the sample, wherein the thermal isolation shield has a high thermal conductivity and a low emissivity and is thermally coupled to the thermal mass to transfer heat radiated from the gas injection system to the thermal mass.Type: ApplicationFiled: August 18, 2022Publication date: February 22, 2024Applicant: APPLIED MATERIALS ISRAEL LTD.Inventors: Sean Kashy, Yehuda Zur
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Patent number: 11887810Abstract: A method of processing a region of a sample, the method comprising: positioning a sample within a vacuum chamber; generating an ion beam with a focused ion beam (FIB) column; focusing the ion beam on the sample and scanning the focused ion beam across the region of the sample thereby generating secondary electrons that are ejected from a surface of the sample within the region; and during the scanning, applying a negative bias voltage to an electrically conductive structure proximate the region to alter a trajectory of the secondary electrons and repel the secondary electrons back to the sample surface, wherein the electrically conductive structure is one of a gas injection nozzle, a voltage pin or a nano-manipulator.Type: GrantFiled: April 20, 2022Date of Patent: January 30, 2024Assignee: Applied Materials Israel Ltd.Inventor: Yehuda Zur
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Publication number: 20230343545Abstract: A method of processing a region of a sample, the method comprising: positioning a sample within a vacuum chamber; generating an ion beam with a focused ion beam (FIB) column; focusing the ion beam on the sample and scanning the focused ion beam across the region of the sample thereby generating secondary electrons that are ejected from a surface of the sample within the region; and during the scanning, applying a negative bias voltage to an electrically conductive structure proximate the region to alter a trajectory of the secondary electrons and repel the secondary electrons back to the sample surface, wherein the electrically conductive structure is one of a gas injection nozzle, a voltage pin or a nano-manipulator.Type: ApplicationFiled: April 20, 2022Publication date: October 26, 2023Applicant: Applied Materials Israel Ltd.Inventor: Yehuda Zur
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Patent number: 11694934Abstract: A method of milling a sample that includes a first layer formed over a second layer, where the first and second layers are different materials, the method comprising: milling the region of the sample by scanning a focused ion beam over the region a plurality of iterations in which, for each iteration, the focused ion beam removes material from the sample generating byproducts from the milled region; detecting, during the milling, the partial pressures of one or more byproducts with a residual gas analyzer positioned to have a direct line of sight to the milled region; generating, in real-time, an output detection signal from the residual gas analyzer indicative of an amount of the one or more byproducts detected; and stopping the milling based on the output signal.Type: GrantFiled: November 19, 2021Date of Patent: July 4, 2023Assignee: Applied Materials Israel Ltd.Inventor: Yehuda Zur
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Patent number: 11636997Abstract: A method of evaluating a region of a sample that includes two or more sub-regions adjacent to each other that have different milling rates. The method can include: scanning a focused ion beam over the region during a single scan frame such that the ion beam is scanned over a first sub-region of the region having a first milling rate at a first scan rate and then scanned over a second sub-region of the region having a second milling rate at a second scan rate, where the second milling rate is faster than the first milling rate and second scan rate is faster than the first scan rate; and repeating the scanning process a plurality of times to etch the region to a desired depth.Type: GrantFiled: July 1, 2020Date of Patent: April 25, 2023Assignee: APPLIED MATERIALS ISRAEL LTD.Inventor: Yehuda Zur
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Patent number: 11626267Abstract: A method of evaluating a region of a sample, the method comprising: positioning a sample within a vacuum chamber; generating an electron beam with a scanning electron microscope (SEM) column that includes an electron gun at one end of the column and a column cap at an opposite end of the column; focusing the electron beam on the sample and scanning the focused electron beam across the region of the sample, while the SEM column is operated in tilted mode, thereby generating secondary electrons and backscattered electrons from within the region; and during the scanning, collecting backscattered electrons with one or more detectors while applying a negative bias voltage to the column cap to alter a trajectory of the secondary electrons preventing the secondary electrons from reaching the one or more detectors.Type: GrantFiled: April 28, 2021Date of Patent: April 11, 2023Assignee: APPLIED MATERIALS ISRAEL LTD.Inventors: Yehuda Zur, Igor Petrov
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Publication number: 20230104390Abstract: A method of milling a sample that includes a first layer formed over a second layer, where the first and second layers are different materials, the method comprising: milling the region of the sample by scanning a focused ion beam over the region a plurality of iterations in which, for each iteration, the focused ion beam removes material from the sample generating byproducts from the milled region; detecting, during the milling, the partial pressures of one or more byproducts with a residual gas analyzer positioned to have a direct line of sight to the milled region; generating, in real-time, an output detection signal from the residual gas analyzer indicative of an amount of the one or more byproducts detected; and stopping the milling based on the output signal.Type: ApplicationFiled: November 19, 2021Publication date: April 6, 2023Applicant: Applied Materials Israel Ltd.Inventor: Yehuda Zur
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Patent number: 11598633Abstract: Analyzing a buried layer on a sample includes milling a spot on the sample using a charged particle beam of a focused ion beam (FIB) column to expose the buried layer along a sidewall of the spot. From a first perspective a first distance is measured between a first point on the sidewall corresponding to an upper surface of the buried layer and a second point on the sidewall corresponding to a lower surface of the buried layer. From a second perspective a second distance is measured between the first point on the sidewall corresponding to the upper surface of the buried layer and the second point on the sidewall corresponding to the lower surface of the buried layer. A thickness of the buried layer is determined using the first distance and the second distance.Type: GrantFiled: July 19, 2021Date of Patent: March 7, 2023Assignee: Applied Materials Israel Ltd.Inventors: Alexander Mairov, Gal Bruner, Yehuda Zur
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Publication number: 20230057148Abstract: Analyzing a sidewall of a hole milled in a sample to determine thickness of a buried layer includes milling the hole in the sample using a charged particle beam of a focused ion beam (FIB) column to expose the buried layer along the sidewall of the hole. After milling, the sidewall of the hole has a known slope angle. From a perspective relative to a surface of the sample, a distance is measured between a first point on the sidewall corresponding to an upper surface of the buried layer and a second point on the sidewall corresponding to a lower surface of the buried layer. The thickness of the buried layer is determined using the known slope angle of the sidewall, the distance, and the angle relative to the surface of the sample.Type: ApplicationFiled: August 23, 2021Publication date: February 23, 2023Applicant: Applied Materials Israel Ltd.Inventors: Ilya Blayvas, Yehuda Zur
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Publication number: 20230023396Abstract: A method of depositing material over a sample in a deposition region of the sample with a charged particle beam column, the method comprising: positioning a sample within a vacuum chamber such that the deposition region is under a field of view of the charged particle beam column; cooling the deposition region by contacting the sample with a cyro-nanomanipulator tool in an area adjacent to the deposition region; injecting a deposition precursor gas into the vacuum chamber at a location adjacent to the deposition region; generating a charged particle beam with a charged particle beam column and focusing the charged particle beam on the sample; and scanning the focused electron beam across the localized region of the sample to activate molecules of the deposition gas that have adhered to the sample surface in the deposition region and deposit material on the sample within the deposition regionType: ApplicationFiled: July 26, 2021Publication date: January 26, 2023Applicant: Applied Materials Israel Ltd.Inventor: Yehuda Zur
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Publication number: 20230019567Abstract: Analyzing a buried layer on a sample includes milling a spot on the sample using a charged particle beam of a focused ion beam (FIB) column to expose the buried layer along a sidewall of the spot. From a first perspective a first distance is measured between a first point on the sidewall corresponding to an upper surface of the buried layer and a second point on the sidewall corresponding to a lower surface of the buried layer. From a second perspective a second distance is measured between the first point on the sidewall corresponding to the upper surface of the buried layer and the second point on the sidewall corresponding to the lower surface of the buried layer. A thickness of the buried layer is determined using the first distance and the second distance.Type: ApplicationFiled: July 19, 2021Publication date: January 19, 2023Applicant: Applied Materials Israel Ltd.Inventors: Alexander Mairov, Gal Bruner, Yehuda Zur
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Publication number: 20220397540Abstract: A method of performing x-ray spectroscopy surface material analysis of a region of interest of a sample with an evaluation system that includes a scanning electron microscope (SEM) column, an x-ray detector and an x-ray polarizer, comprising: positioning a sample within a field of view of the scanning electron microscope; generating an electron beam having a landing energy about equal to an ionization energy of the materials within the region of interest of the sample; scanning the region of interest with the electron beam set to collide with the sample thereby generating x-rays emitted from near a surface of the sample, the x-rays including characteristic x-rays and Bremsstrahlung radiation; and detecting x-rays generated while the region of interest is scanned by the electron after the x-rays pass through the x-ray polarizer that blocks a higher percentage of the Bremsstrahlung radiation than the characteristic x-rays.Type: ApplicationFiled: June 14, 2021Publication date: December 15, 2022Applicant: Applied Materials Israel Ltd.Inventor: Yehuda Zur
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Patent number: 11525791Abstract: A method of performing x-ray spectroscopy surface material analysis of a region of interest of a sample with an evaluation system that includes a scanning electron microscope (SEM) column, an x-ray detector and an x-ray polarizer, comprising: positioning a sample within a field of view of the scanning electron microscope; generating an electron beam having a landing energy about equal to an ionization energy of the materials within the region of interest of the sample; scanning the region of interest with the electron beam set to collide with the sample thereby generating x-rays emitted from near a surface of the sample, the x-rays including characteristic x-rays and Bremsstrahlung radiation; and detecting x-rays generated while the region of interest is scanned by the electron after the x-rays pass through the x-ray polarizer that blocks a higher percentage of the Bremsstrahlung radiation than the characteristic x-rays.Type: GrantFiled: June 14, 2021Date of Patent: December 13, 2022Assignee: APPLIED MATERIALS ISRAEL LTD.Inventor: Yehuda Zur
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Publication number: 20220367146Abstract: A method of performing x-ray spectroscopy material analysis of a region of interest within a cross-section of a sample using an evaluation system that includes a focused ion beam (FIB) column, a scanning electron microscope (SEM) column, and an x-ray detector, including: forming a lamella having first and second opposing side surfaces in the sample by milling, with the FIB column, first and second trenches in the sample to expose the first and second sides surface of the lamella, respectively; depositing background material in the second trench, wherein the background material is selected such that the background material does not include any chemical elements that are expected to be within the region of interest of the sample; generating a charged particle beam with the SEM column and scanning the charged particle beam across a region of interest on the first side surface of the lamella such that the charged particle beam collides with the first side surface of the lamella at a non-vertical angle; and detectType: ApplicationFiled: May 14, 2021Publication date: November 17, 2022Applicant: Applied Materials Israel Ltd.Inventors: Yehuda Zur, Alon Litman
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Patent number: 11501951Abstract: A method of performing x-ray spectroscopy material analysis of a region of interest within a cross-section of a sample using an evaluation system that includes a focused ion beam (FIB) column, a scanning electron microscope (SEM) column, and an x-ray detector, including: forming a lamella having first and second opposing side surfaces in the sample by milling, with the FIB column, first and second trenches in the sample to expose the first and second sides surface of the lamella, respectively; depositing background material in the second trench, wherein the background material is selected such that the background material does not include any chemical elements that are expected to be within the region of interest of the sample; generating a charged particle beam with the SEM column and scanning the charged particle beam across a region of interest on the first side surface of the lamella such that the charged particle beam collides with the first side surface of the lamella at a non-vertical angle; and detectType: GrantFiled: May 14, 2021Date of Patent: November 15, 2022Assignee: APPLIED MATERIALS ISRAEL LTD.Inventors: Yehuda Zur, Alon Litman
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Publication number: 20220351937Abstract: A method of evaluating a region of a sample, the method comprising: positioning a sample within a vacuum chamber; generating an electron beam with a scanning electron microscope (SEM) column that includes an electron gun at one end of the column and a column cap at an opposite end of the column; focusing the electron beam on the sample and scanning the focused electron beam across the region of the sample, while the SEM column is operated in tilted mode, thereby generating secondary electrons and backscattered electrons from within the region; and during the scanning, collecting backscattered electrons with one or more detectors while applying a negative bias voltage to the column cap to alter a trajectory of the secondary electrons preventing the secondary electrons from reaching the one or more detectors.Type: ApplicationFiled: April 28, 2021Publication date: November 3, 2022Applicant: Applied Materials Israel Ltd.Inventors: Yehuda Zur, Igor Petrov
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Patent number: 11440151Abstract: A miller, a non-transitory computer readable medium, and a method for milling a multi-layered object. The method may include (i) receiving or determining milling parameters related to a milling process, the milling parameters may include at least two out of (a) a defocus strength, (b) a duration of the milling process, (c) a bias voltage supplied to an objective lens during the milling process, (d) an ion beam energy, and (e) an ion beam current density, and (ii) forming a crater by applying the milling process while maintaining the milling parameters, wherein the applying of the milling process includes directing a defocused ion beam on the multi-layered object.Type: GrantFiled: June 7, 2019Date of Patent: September 13, 2022Inventor: Yehuda Zur