Patents by Inventor Yusuke Ominami
Yusuke Ominami 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: 20150228449Abstract: In a charged particle beam device that performs observation of a sample under a gas environment in atmospheric pressure or pressure substantially equal to the atmospheric pressure, a diaphragm that separates an atmospheric pressure space, in which the sample is placed, and a vacuum space in an interior of an electron optical lens barrel is made very thin in order to allow an electron beam to transmit therethrough and damaged with a high possibility. Although at the time of replacing the diaphragm, it is necessary to adjust a position of a diaphragm, it is impossible to easily perform the adjustment of the position of the diaphragm by a conventional method.Type: ApplicationFiled: September 25, 2013Publication date: August 13, 2015Inventors: Shinsuke Kawanishi, Yusuke Ominami, Masahiko Ajima, Hiroyuki Suzuki
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Patent number: 9105442Abstract: Provided is a charged particle beam apparatus or charged particle microscope capable of observing an observation target sample in an air atmosphere or a gas environment without making significant changes to the configuration of a conventional high vacuum charged particle microscope. In a charged particle beam apparatus configured such that a thin film (10) is used to separate a vacuum environment and an air atmosphere (or a gas environment), an attachment (121) capable of holding the thin film (10) and whose interior can be maintained at an air atmosphere or a gas environment is inserted into a vacuum chamber (7) of a high vacuum charged particle microscope. The attachment (121) is vacuum-sealed and fixed to a vacuum partition of the vacuum sample chamber. Image quality is further improved by replacing the atmosphere in the attachment with helium or a light-elemental gas that has a lower mass than atmospheric gases such as nitrogen or water vapor.Type: GrantFiled: November 24, 2014Date of Patent: August 11, 2015Assignee: Hitachi High-Technologies CorporationInventors: Yusuke Ominami, Sukehiro Ito, Tomohisa Ohtaki
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Publication number: 20150221470Abstract: There is provided a charged particle beam apparatus having the function of permitting observation of a sample in a gas atmosphere or in a liquid state, the apparatus being intended to let a dry sample be observed as it is getting saturated with an introduced liquid and to prevent a charged particle beam from getting scattered by an unwanted liquid introduced between a diaphragm and the sample. This invention provides a structure including an inlet-outlet part (300) that brings in and out a desired liquid or gas in the direction of the underside or the side of the sample (6), the structure being arranged so that the sample (6) is irradiated with a primary charged particle beam while the sample (6) and the diaphragm (10) are kept out of contact with each other.Type: ApplicationFiled: July 8, 2013Publication date: August 6, 2015Inventors: Yusuke Ominami, Shinsuke Kawanishi, Hiroyuki Suzuki, Kohtaro Hosoya, Masanari Furiki
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Publication number: 20150213999Abstract: The ordinary charged particle beam apparatus works on the assumption that signals are detected while its diaphragm and the sample are being positioned close to each other. This structure is not suitable for observing a sample with a prominently uneven surface in a gas atmosphere at atmospheric pressure or at a pressure substantially equal thereto. The present invention provides a charged particle beam apparatus that separates its charged particle optical tube from the space in which the sample is placed. The apparatus includes a detachable diaphragm that lets a primary charged particle beam permeate or pass therethrough. Installed in the space where the sample is placed is a detector that detects secondary particles discharged from the sample irradiated with the primary charged particle beam.Type: ApplicationFiled: July 1, 2013Publication date: July 30, 2015Inventors: Yusuke Ominami, Noriyuki Sakuma, Shinsuke Kawanishi, Masahiko Ajima, Sukehiro Ito
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Publication number: 20150206705Abstract: A member for a charged particle beam device (56), which is used for a charged particle beam device (1c), includes a frame (55) to be attached to a frame (3c), and a diaphragm element (18a) provided in the frame (55). In the diaphragm element (18a), a diaphragm (19), which air-tightly separates the inside and the outside of a vacuum chamber (4a) from each other in a state where the pressure inside the vacuum chamber (4a) partitioned by the frame (3c) and the frame (55) is reduced more than the pressure outside the vacuum chamber (4a), and allows a charged particle beam to be transmitted therethrough, is formed. Moreover, in the diaphragm element (18a), a buffer film (33) for preventing a sample (12) and the diaphragm (19) from coming into contact with each other is formed so as to be positioned on a sample stage (22) side rather than on the diaphragm (19).Type: ApplicationFiled: July 11, 2013Publication date: July 23, 2015Applicant: Hitachi High- Technologies CorporationInventors: Noriyuki Sakuma, Yusuke Ominami
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Publication number: 20150129763Abstract: A charged particle beam device (1) includes a charged particle optical lens barrel (10), a support housing (20) equipped with the charged particle optical lens barrel (10) thereon, and an insertion housing (30) inserted in the support housing (20). A first aperture member (15) is disposed in the vicinity of the center of the magnetic field of an objective lens, and a second aperture member (15) is disposed so as to externally close an opening part provided at the upper side of the insertion housing (30). Further, when a primary charged particle beam (12) is irradiated to a sample (60) arranged under the lower side of the second aperture member (31), secondary charged particles thus emitted are detected by a detector (16).Type: ApplicationFiled: April 11, 2013Publication date: May 14, 2015Inventors: Yusuke Ominami, Shinsuke Kawanishi, Tomohisa Ohtaki, Masahiko Ajima, Sukehiro Ito
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Publication number: 20150083908Abstract: A sample observation method uses a charged particle beam apparatus comprising a charged particle optical column irradiating a charged particle beam, a vacuum chamber, and a sample chamber being capable of storing a sample. The method includes maintaining a pressure of the sample chamber higher than that of the vacuum chamber by a thin film which permits the charged particle beam to be transmitted, determining a relation between a height of a lower surface of the thin film and a height of a lower end of a lens barrel of an optical microscope, measuring a distance between the sample and the lens barrel, and setting a distance between the sample and thin film based on the relation and the distance.Type: ApplicationFiled: December 5, 2014Publication date: March 26, 2015Inventors: Yusuke OMINAMI, Mami KONOMI, Sukehiro ITO, Tomohisa OHTAKI, Shinsuke KAWANISHI
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Publication number: 20150076347Abstract: Provided is a charged particle beam apparatus or charged particle microscope capable of observing an observation target sample in an air atmosphere or a gas environment without making significant changes to the configuration of a conventional high vacuum charged particle microscope. In a charged particle beam apparatus configured such that a thin film (10) is used to separate a vacuum environment and an air atmosphere (or a gas environment), an attachment (121) capable of holding the thin film (10) and whose interior can be maintained at an air atmosphere or a gas environment is inserted into a vacuum chamber (7) of a high vacuum charged particle microscope. The attachment (121) is vacuum-sealed and fixed to a vacuum partition of the vacuum sample chamber. Image quality is further improved by replacing the atmosphere in the attachment with helium or a light-elemental gas that has a lower mass than atmospheric gases such as nitrogen or water vapor.Type: ApplicationFiled: November 24, 2014Publication date: March 19, 2015Inventors: Yusuke Ominami, Sukehiro Ito, Tomohisa Ohtaki
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Publication number: 20150014530Abstract: Provided is a charged particle beam apparatus (111) to and from which a diaphragm (101) can be easily attached and detached, and in which a sample (6) can be arranged under vacuum and under high pressure. The charged particle beam apparatus includes: a lens barrel (3) holding a charged particle source (110) and an electron optical system (1,2,7); a first housing (4) connected to the lens barrel (3); a second housing (100) recessed to inside the first housing (4); a first diaphragm (10) separating the space inside the lens barrel (3) and the space inside the first housing (4), and through which the charged particle beam passes; a second diaphragm (101) separating the spaces inside and outside the recessed section (100a) in the second housing (100), and through which the charged particle beam passes; and a pipe (23) connected to a third housing (22) accommodating the charged particle source (110).Type: ApplicationFiled: February 15, 2013Publication date: January 15, 2015Applicant: Hitachi High-TEchnologies CorporationInventors: Yusuke Ominami, Takashi Ohshima, Hiroyuki Ito, Mitsugu Sato, Sukehiro Ito
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Patent number: 8933400Abstract: Provided is an inspection apparatus or observation apparatus enabling appropriate inspection or observation of a sample in an easy-to-use manner, using a charged-particle technique and an optical technique.Type: GrantFiled: September 3, 2012Date of Patent: January 13, 2015Assignee: Hitachi High-Technologies CorporationInventors: Yusuke Ominami, Mami Konomi, Sukehiro Ito, Tomohisa Ohtaki, Shinsuke Kawanishi
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Patent number: 8921786Abstract: Provided is a charged particle beam apparatus or charged particle microscope capable of observing an observation target sample in an air atmosphere or a gas environment without making significant changes to the configuration of a conventional high vacuum charged particle microscope. In a charged particle beam apparatus configured such that a thin film (10) is used to separate a vacuum environment and an air atmosphere (or a gas environment), an attachment (121) capable of holding the thin film (10) and whose interior can be maintained at an air atmosphere or a gas environment is inserted into a vacuum chamber (7) of a high vacuum charged particle microscope. The attachment (121) is vacuum-sealed and fixed to a vacuum partition of the vacuum sample chamber. Image quality is further improved by replacing the atmosphere in the attachment with helium or a light-elemental gas that has a lower mass than atmospheric gases such as nitrogen or water vapor.Type: GrantFiled: February 27, 2014Date of Patent: December 30, 2014Assignee: Hitachi High-Technologies CorporationInventors: Yusuke Ominami, Sukehiro Ito, Tomohisa Ohtaki
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Patent number: 8835847Abstract: A sample holding apparatus for electron microscope includes: a sample holding assembly including an assembly of three components of an upper diaphragm holding part, a sample holding plate and a lower diaphragm holding part; and a holding part that holds the sample holding assembly replaceably. The sample holding assembly includes a cell defined between a diaphragm of the upper diaphragm holding part and a diaphragm of the lower diaphragm holding part, and a flow channel connected to the cell, in which a sample mounted at a protrusion of the sample holding plate is placed. The diaphragm of the upper diaphragm holding part, the sample and the diaphragm of the lower diaphragm holding part are disposed along an optical axis of an electron beam.Type: GrantFiled: April 20, 2012Date of Patent: September 16, 2014Assignee: Hitachi High-Technologies CorporationInventors: Toshie Yaguchi, Akira Watabe, Yusuke Ominami
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Publication number: 20140246583Abstract: Provided is an inspection apparatus or observation apparatus enabling appropriate inspection or observation of a sample in an easy-to-use manner, using a charged-particle technique and an optical technique.Type: ApplicationFiled: September 3, 2012Publication date: September 4, 2014Applicant: HITACHI HIGH-TECHNOLOGIES CORPORATIONInventors: Yusuke Ominami, Mami Konomi, Sukehiro Ito, Tomohisa Ohtaki, Shinsuke Kawanishi
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Publication number: 20140175278Abstract: Provided is a charged particle beam apparatus or charged particle microscope capable of observing an observation target sample in an air atmosphere or a gas environment without making significant changes to the configuration of a conventional high vacuum charged particle microscope. In a charged particle beam apparatus configured such that a thin film (10) is used to separate a vacuum environment and an air atmosphere (or a gas environment), an attachment (121) capable of holding the thin film (10) and whose interior can be maintained at an air atmosphere or a gas environment is inserted into a vacuum chamber (7) of a high vacuum charged particle microscope. The attachment (121) is vacuum-sealed and fixed to a vacuum partition of the vacuum sample chamber. Image quality is further improved by replacing the atmosphere in the attachment with helium or a light-elemental gas that has a lower mass than atmospheric gases such as nitrogen or water vapor.Type: ApplicationFiled: February 27, 2014Publication date: June 26, 2014Applicant: Hitachi High-Technologies CorporationInventors: Yusuke OMINAMI, Sukehiro ITO, Tomohisa OHTAKI
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Publication number: 20140151553Abstract: A charged particle beam device capable of observing a sample in an air atmosphere or gas atmosphere has a thin film for separating the atmospheric pressure space from the decompressed space. A vacuum evacuation pump evacuates a first housing; and a detector detects a charged particle beam (obtained by irradiation of the sample) in the first housing. A thin film is provided to separate the inside of the first housing and the inside of a second housing at least along part of the interface between the first and second housings. An opening part is formed in the thin film so that its opening area on a charged particle irradiation unit's side is larger than its opening area on the sample side; and the thin film which covers the sample side of the opening part transmits or allows through the primary charged particle beam and the charged particle beam.Type: ApplicationFiled: July 4, 2012Publication date: June 5, 2014Applicant: HITACHI HIGH-TECHNOLOGIES CORPORATIONInventors: Yusuke Ominami, Tomohisa Ohtaki, Sukehiro Ito
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Patent number: 8710439Abstract: Provided is a charged particle beam apparatus or charged particle microscope capable of observing an observation target sample in an air atmosphere or a gas environment without making significant changes to the configuration of a conventional high vacuum charged particle microscope. In a charged particle beam apparatus configured such that a thin film (10) is used to separate a vacuum environment and an air atmosphere (or a gas environment), an attachment (121) capable of holding the thin film (10) and whose interior can be maintained at an air atmosphere or a gas environment is inserted into a vacuum chamber (7) of a high vacuum charged particle microscope. The attachment (121) is vacuum-sealed and fixed to a vacuum partition of the vacuum sample chamber. Image quality is further improved by replacing the atmosphere in the attachment with helium or a light-elemental gas that has a lower mass than atmospheric gases such as nitrogen or water vapor.Type: GrantFiled: March 2, 2012Date of Patent: April 29, 2014Assignee: Hitachi High-Technologies CorporationInventors: Yusuke Ominami, Sukehiro Ito, Tomohisa Ohtaki
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Patent number: 8658987Abstract: Provided is a circuit-pattern inspection device which enables efficient inspection of a semiconductor wafer by selectively inspecting areas on the semiconductor wafer, such as boundaries between patterns thereon, where defects are likely to occur during the step of producing the semiconductor wafer while changing the beam scanning direction for each area. Two-dimensional beam-deflection control is employed for inspection operations in a continuous-stage-movement-type circuit-pattern inspection device in which only one-dimensional scanning has been employed conventionally. That is, by employing a combination of an electron-beam-deflection control in a first direction parallel to the stage-movement direction and an electron-beam-deflection control in a second direction intersecting the stage-movement direction, it is possible to obtain an image of any desired area for inspection that is set within a swath.Type: GrantFiled: February 21, 2011Date of Patent: February 25, 2014Assignee: Hitachi High-Technologies CorporationInventors: Takuma Yamamoto, Takashi Hiroi, Yusuke Ominami
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Publication number: 20140042318Abstract: A sample holding apparatus for electron microscope includes: a sample holding assembly including an assembly of three components of an upper diaphragm holding part, a sample holding plate and a lower diaphragm holding part; and a holding part that holds the sample holding assembly replaceably. The sample holding assembly includes a cell defined between a diaphragm of the upper diaphragm holding part and a diaphragm of the lower diaphragm holding part, and a flow channel connected to the cell, in which a sample mounted at a protrusion of the sample holding plate is placed. The diaphragm of the upper diaphragm holding part, the sample and the diaphragm of the lower diaphragm holding part are disposed along an optical axis of an electron beam.Type: ApplicationFiled: April 20, 2012Publication date: February 13, 2014Applicant: HITACHI HIGH-TECHNOLOGIES CORPORATIONInventors: Toshie Yaguchi, Akira Watabe, Yusuke Ominami
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Publication number: 20140021347Abstract: Provided is a charged particle beam apparatus or charged particle microscope capable of observing an observation target sample in an air atmosphere or a gas environment without making significant changes to the configuration of a conventional high vacuum charged particle microscope. In a charged particle beam apparatus configured such that a thin film (10) is used to separate a vacuum environment and an air atmosphere (or a gas environment), an attachment (121) capable of holding the thin film (10) and whose interior can be maintained at an air atmosphere or a gas environment is inserted into a vacuum chamber (7) of a high vacuum charged particle microscope. The attachment (121) is vacuum-sealed and fixed to a vacuum partition of the vacuum sample chamber. Image quality is further improved by replacing the atmosphere in the attachment with helium or a light-elemental gas that has a lower mass than atmospheric gases such as nitrogen or water vapor.Type: ApplicationFiled: March 2, 2012Publication date: January 23, 2014Inventors: Yusuke Ominami, Sukehiro Ito, Tomohisa Ohtaki
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Patent number: D730962Type: GrantFiled: March 7, 2014Date of Patent: June 2, 2015Assignee: HITACHI HIGH-TECHNOLOGIES CORPORATIONInventors: Yusuke Ominami, Shinsuke Kawanishi, Hiroyuki Suzuki, Masahiko Ajima