Patents by Inventor Tomohiko Ogata
Tomohiko Ogata 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: 11515121Abstract: In an electron beam device provided with two columns including an irradiation optical system and an imaging optical system, a photoelectron image for use in adjusting the irradiation optical system is made sharper. The electron beam device includes: an irradiation optical system which irradiates a sample placed on a stage with an electron beam; a light irradiation unit 50 which irradiates the sample with light containing ultraviolet rays; a sample voltage control unit 44 which applies a negative voltage to the sample so that, before the electron beam reaches the sample, the electron orbit inverts; and an imaging optical system which acquires a mirror electron image by forming an image of mirror electrons reflected by application of the negative voltage.Type: GrantFiled: October 22, 2019Date of Patent: November 29, 2022Assignee: Hitachi High-Tech CorporationInventors: Tomohiko Ogata, Hisaya Murakoshi, Masaki Hasegawa, Noriyuki Kaneoka, Katsunori Onuki
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Patent number: 11342211Abstract: The present disclosure provides a wafer inspection technology that involves less degradation of the image quality even when an object to be observed has a variation in height due to warpage, etc. of a wafer. This wafer inspection apparatus obtains an image with less degradation by: adjusting the focal point of an observation optical system to a height measured by a height sensor for measuring wafer surface heights; and further, correcting a switching signal for a CCD line sensor on the basis of stage position data and optical magnification data corresponding to the height so as to make a correction corresponding to the wafer surface height.Type: GrantFiled: May 30, 2018Date of Patent: May 24, 2022Assignee: HITACHI HIGH-TECH CORPORATIONInventors: Akira Doi, Minoru Sasaki, Masaki Hasegawa, Hironori Ogawa, Tomohiko Ogata, Yuko Okada
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Patent number: 11193895Abstract: It is necessary to guarantee performance by quantitatively evaluating the defect detection sensitivity of an inspection device for using the mirror electron image to detect defect in a semiconductor substrate. The size and position of accidentally formed defects are random, however, and this type of quantitative evaluation has been difficult. This semiconductor substrate 101 for evaluation is for evaluating the defect detection sensitivity of an inspection device and comprises a plurality of first indentations 104 that are formed through the pressing, with a first pressing load, of an indenter having a prescribed hardness and shape into the semiconductor substrate for evaluation. Further, a mirror electron image of the plurality of first indentations of the semiconductor substrate for evaluation is acquired, and the defect detection sensitivity of an inspection device is evaluated through the calculation of the defect detection rate of the plurality of first indentations in the acquired mirror electron image.Type: GrantFiled: October 30, 2017Date of Patent: December 7, 2021Assignee: Hitachi High-Tech CorporationInventors: Kentaro Ohira, Masaki Hasegawa, Tomohiko Ogata, Katsunori Onuki, Noriyuki Kaneoka
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Patent number: 11107655Abstract: In order to optimize defect contrast in a charged particle beam device that inverts charged particles directly above a sample and observes the electrons, this charged particle beam device is provided with a charged particle source, an electron gun control device which applies a first voltage to the charged particle source, a substrate voltage control device which applies a second voltage to a sample, an image forming optical system which includes an imaging lens for imaging charged particles incident from the direction of the sample, a detector which includes a camera for detecting the charged particles, and an image processing device which processes the detected signal, wherein the imaging optical system is configured so as not to image secondary electrons emitted from the sample, but forms an image with mirror electrons bounced back by the electric field formed on the sample by means of the potential difference between the first and the second voltages.Type: GrantFiled: September 20, 2017Date of Patent: August 31, 2021Assignee: Hitachi High-Technologies CorporationInventors: Tomohiko Ogata, Masaki Hasegawa, Katsunori Onuki, Noriyuki Kaneoka, Hisaya Murakoshi
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Patent number: 11002687Abstract: A defect inspection device includes a sample support member, a negative voltage, an imaging element, an ultraviolet light source, a movement stage, and a control device. The control device controls the movement stage such that a portion of a linear part included in the image or a location on an extensional line of the linear part is positioned at a specific location in an irradiated region of the electron beam. The control device also repeats the control of the movement stage until an end of the linear part is positioned within the irradiated region of the electron beam.Type: GrantFiled: March 16, 2016Date of Patent: May 11, 2021Assignee: Hitachi High-Tech CorporationInventors: Masaki Hasegawa, Katsunori Onuki, Noriyuki Kaneoka, Hisaya Murakoshi, Tomohiko Ogata
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Publication number: 20210118710Abstract: The present disclosure provides a wafer inspection technology that involves less degradation of the image quality even when an object to be observed has a variation in height due to warpage, etc. of a wafer. This wafer inspection apparatus obtains an image with less degradation by: adjusting the focal point of an observation optical system to a height measured by a height sensor for measuring wafer surface heights; and further, correcting a switching signal for a CCD line sensor on the basis of stage position data and optical magnification data corresponding to the height so as to make a correction corresponding to the wafer surface height.Type: ApplicationFiled: May 30, 2018Publication date: April 22, 2021Inventors: Akira DOI, Minoru SASAKI, Masaki HASEGAWA, Hironori OGAWA, Tomohiko OGATA, Yuko OKADA
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Patent number: 10923315Abstract: A purpose of the present invention is to provide a charged particle beam apparatus that performs apparatus adjustment based on a proper evaluation of a beam. To achieve the abovementioned purpose, with the present invention, proposed is a charged particle beam apparatus comprising: an irradiation optical system including a lens for converging charged particle beams emitted from a charged particle source; and an imaging optical system for imaging the charged particles obtained by irradiating the charged particle beams toward a sample on an imaging element, wherein the charged particle beam apparatus comprises a control apparatus for controlling the lens, and the control apparatus evaluates for each lens condition the size of a specific brightness area obtained by the charged particle beam being made to reach the sample, and selects the lens condition for which the size information fulfills a designated condition.Type: GrantFiled: March 24, 2017Date of Patent: February 16, 2021Assignee: Hitachi High-Tech CorporationInventors: Masaki Hasegawa, Tomohiko Ogata, Noriyuki Kaneoka, Hisaya Murakoshi, Katsunori Onuki
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Publication number: 20200340930Abstract: It is necessary to guarantee performance by quantitatively evaluating the defect detection sensitivity of an inspection device for using the mirror electron image to detect defect in a semiconductor substrate. The size and position of accidentally formed defects are random, however, and this type of quantitative evaluation has been difficult. This semiconductor substrate 101 for evaluation is for evaluating the defect detection sensitivity of an inspection device and comprises a plurality of first indentations 104 that are formed through the pressing, with a first pressing load, of an indenter having a prescribed hardness and shape into the semiconductor substrate for evaluation. Further, a mirror electron image of the plurality of first indentations of the semiconductor substrate for evaluation is acquired, and the defect detection sensitivity of an inspection device is evaluated through the calculation of the defect detection rate of the plurality of first indentations in the acquired mirror electron image.Type: ApplicationFiled: October 30, 2017Publication date: October 29, 2020Inventors: Kentaro OHIRA, Masaki HASEGAWA, Tomohiko OGATA, Katsunori ONUKI, Noriyuki KANEOKA
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Publication number: 20200292466Abstract: The purpose of the present invention is to provide a defect inspection device that can evaluate a defect having a long latent flaw with high precision. A defect inspection device of the present invention is characterized by being provided with: a sample support member that supports a sample irradiated by an electron beam emitted from an electron source; an imaging element at which an image of electrons (mirror electrons) reflected without reaching the sample is formed via a retarding electric field formed on the sample; an ultraviolet light source that emits an ultraviolet light toward the sample; a movement stage that moves the sample support member; and a control device that controls the movement stage.Type: ApplicationFiled: March 16, 2016Publication date: September 17, 2020Inventors: Masaki HASEGAWA, Katsunori ONUKI, Noriyuki KANEOKA, Hisaya MURAKOSHI, Tomohiko OGATA
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Publication number: 20200279714Abstract: In order to optimize defect contrast in a charged particle beam device that inverts charged particles directly above a sample and observes the electrons, this charged particle beam device is provided with a charged particle source, an electron gun control device which applies a first voltage to the charged particle source, a substrate voltage control device which applies a second voltage to a sample, an image forming optical system which includes an imaging lens for imaging charged particles incident from the direction of the sample, a detector which includes a camera for detecting the charged particles, and an image processing device which processes the detected signal, wherein the imaging optical system is configured so as not to image secondary electrons emitted from the sample, but forms an image with mirror electrons bounced back by the electric field formed on the sample by means of the potential difference between the first and the second voltages.Type: ApplicationFiled: September 20, 2017Publication date: September 3, 2020Inventors: Tomohiko OGATA, Masaki HASEGAWA, Katsunori ONUKI, Noriyuki KANEOKA, Hisaya MURAKOSHI
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Publication number: 20200152415Abstract: In an electron beam device provided with two columns including an irradiation optical system and an imaging optical system, a photoelectron image for use in adjusting the irradiation optical system is made sharper. The electron beam device includes: an irradiation optical system which irradiates a sample placed on a stage with an electron beam; a light irradiation unit 50 which irradiates the sample with light containing ultraviolet rays; a sample voltage control unit 44 which applies a negative voltage to the sample so that, before the electron beam reaches the sample, the electron orbit inverts; and an imaging optical system which acquires a mirror electron image by forming an image of mirror electrons reflected by application of the negative voltage.Type: ApplicationFiled: October 22, 2019Publication date: May 14, 2020Inventors: Tomohiko OGATA, Hisaya MURAKOSHI, Masaki HASEGAWA, Noriyuki KANEOKA, Katsunori ONUKI
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Patent number: 10522320Abstract: The objective of the present invention is to propose a charged particle beam device with which an imaging optical system and an irradiation optical system can be adjusted with high precision. In order to achieve this objective, provided is a charged particle beam device comprising: a first charged particle column which serves as an irradiation optical signal; a deflector that deflects charged particles which have passed through the inside of the first charged particle column toward an object; and a second charged particle column which serves as an imaging optical system.Type: GrantFiled: March 28, 2016Date of Patent: December 31, 2019Assignee: Hitachi High-Technologies CorporationInventors: Tomohiko Ogata, Masaki Hasegawa, Hisaya Murakoshi, Katsunori Onuki, Noriyuki Kaneoka
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Publication number: 20190378685Abstract: A purpose of the present invention is to provide a charged particle beam apparatus that performs apparatus adjustment based on a proper evaluation of a beam. To achieve the abovementioned purpose, with the present invention, proposed is a charged particle beam apparatus comprising: an irradiation optical system including a lens for converging charged particle beams emitted from a charged particle source; and an imaging optical system for imaging the charged particles obtained by irradiating the charged particle beams toward a sample on an imaging element, wherein the charged particle beam apparatus comprises a control apparatus for controlling the lens, and the control apparatus evaluates for each lens condition the size of a specific brightness area obtained by the charged particle beam being made to reach the sample, and selects the lens condition for which the size information fulfills a designated condition.Type: ApplicationFiled: March 24, 2017Publication date: December 12, 2019Inventors: Masaki HASEGAWA, Tomohiko OGATA, Noriyuki KANEOKA, Hisaya MURAKOSHI, Katsunori ONUKI
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Publication number: 20190108969Abstract: The objective of the present invention is to propose a charged particle beam device with which an imaging optical system and an irradiation optical system can be adjusted with high precision. In order to achieve this objective, provided is a charged particle beam device comprising: a first charged particle column which serves as an irradiation optical signal; a deflector that deflects charged particles which have passed through the inside of the first charged particle column toward an object; and a second charged particle column which serves as an imaging optical system.Type: ApplicationFiled: March 28, 2016Publication date: April 11, 2019Inventors: Tomohiko OGATA, Masaki HASEGAWA, Hisaya MURAKOSHI, Katsunori ONUKI, Noriyuki KANEOKA
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Publication number: 20190079025Abstract: The purpose of the present invention is to provide a defect inspection device with which it is possible to detect a latent flaw with a high precision or at a high speed. In order to fulfill this purpose, this defect inspection device is provided with: a sample support member that supports a sample irradiated by an electron beam emitted from an electron source; a negative voltage applying power source for forming a retarding electric field in relation to the electron beam that irradiates the sample supported by the sample support member; an imaging element at which an image of electrons reflected without reaching the sample is formed via the retarding electric field; an ultraviolet light source that emits an ultraviolet light toward the sample; and a computation processing device that processes an image generated on the basis of a signal obtained by the imaging element.Type: ApplicationFiled: March 16, 2016Publication date: March 14, 2019Inventors: Masaki HASEGAWA, Katsunori ONUKI, Noriyuki KANEOKA, Hisaya MURAKOSHI, Tomohiko OGATA
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Publication number: 20060014979Abstract: In order to provide a method for producing a high-purity aromatic dicarboxylic acid such as terephthalic acid with high energy efficiency using a simplified process, in the method for producing terephthalic acid according to the present invention, solid-liquid separation and cleaning steps are carried out using a single device, and in a step for removing any liquid adhered to terephthalic cakes by evaporation, internal energy stored in the terephthalic acid cakes and/or the liquid adhered thereto is used at least part of the energy for evaporating the liquid adhered to the cakes.Type: ApplicationFiled: November 14, 2003Publication date: January 19, 2006Inventors: Motoki Numata, Takayuki Isogai, Tomohiko Ogata
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Patent number: 6159322Abstract: A photosensitive ceramic green sheet having an inorganic powder including 30% or more of a glass powder and a photosensitive organic component as essential components, characterized by satisfying -0.05.ltoreq.N2-N1.ltoreq.0.1 where N1 is the average refractive index of the organic component and N2 is the average refractive index of the inorganic powder is used to provide a highly accurate ceramic package with a high aspect ratio.Type: GrantFiled: February 17, 1998Date of Patent: December 12, 2000Assignee: Toray Industries, Inc.Inventors: Tomohiko Ogata, Takaki Masaki, Yuichiro Iguchi, Tuyosi Tanaka, Keiji Iwanaga
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Patent number: 5957398Abstract: A pulverizer for pulverizing a product has a container and at least one working part within the container, which may contain a pulverizing medium. At least one of (1) an inner liner of the container, (2) an outer shell of the working part and (3) an outer shell of the pulverizing medium is formed from a composite ceramic material containing aluminum oxide material as a main component, and zirconium oxide material in an amount of 15-40 wt. %. At least one of Y.sub.2 O.sub.3 and CeO.sub.2 is present in the zirconium oxide material in an amount of 0.1-5 mol %. A pulverizer may comprise at least one of a working part of the pulverizer and a container having a Vickers hardness (Hv) of 1300 kgf/mm.sup.2 or higher, and a pulverizing medium whose Vickers hardness (Hv) is 100-600 kgf/mm.sup.2 lower than that of the Vickers hardness of said at least one of the working part and the container member.Type: GrantFiled: June 6, 1997Date of Patent: September 28, 1999Assignee: Toray Industries, Inc.Inventors: Tomohiko Ogata, Minoru Takuwa, Shouichiro Goto, Shin-ichi Itou, Yasuhiro Nakano, Toru Tsurumi
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Patent number: 5030597Abstract: Ceramic powders selected from the group (a) consisting of ZrB.sub.2, HfB.sub.2, ZfC, ZrN and HfN and ceramic powders selected from the group (b) consisting of TiC, TiN and TiO.sub.2 are mixed, the mixture is sintered in a non-oxidizing atmosphere, a substitution reaction of chemical elements between the compound of the ceramic powders of the group (a) and the compound of the ceramic powders of the group (b) is caused in the sintering, and a ceramic composite substantially comprising compounds which do not belong to the groups (a) and (b) is produced by the substitution reaction. By this process, the affection of the particle size and the aggregation of raw powders to the sintering can be greatly reduced, the ranges of the applicable sintering conditions can be broadened, and dense ceramic composites having fine crystal grains and having excellent mechanical properties can be obtained.Type: GrantFiled: March 2, 1990Date of Patent: July 9, 1991Assignee: Toray Industries, Inc.Inventors: Tomohiko Ogata, Takako Mori, Hiroshi Kuwajima