Patents Assigned to International Superconductivity Technology Center
  • Publication number: 20160125977
    Abstract: An oxide superconductor includes: a substrate made of a metal; an insulating intermediate layer provided on the substrate; an oxide superconducting layer provided on the intermediate layer; a metal stabilizing layer provided on the oxide superconducting layer; and a plurality of dividing grooves which divide the metal stabilizing layer and the oxide superconducting layer along a longitudinal direction of the substrate, reach the inside of the intermediate layer through the oxide superconducting layer from the metal stabilizing layer, and do not reach the substrate. The metal stabilizing layer and the oxide superconducting layer are divided to form a plurality of filament conductors by the plurality of dividing grooves, and in each dividing groove of the plurality of dividing grooves, a width of a groove opening portion of the dividing groove is equal to or greater than a width of a groove bottom portion of the dividing groove.
    Type: Application
    Filed: May 28, 2014
    Publication date: May 5, 2016
    Applicants: International Superconductivity Technology Center, FUJIKURA LTD., SWCC SHOWA CABLE SYSTEMS CO., LTD., FURUKAWA ELECTRIC CO., LTD.
    Inventors: Takato MACHI, Tomo YOSHIDA, Tatsunori NAKAMURA, Kota KATAYAMA, Koichi NAKAO, Keiichi TANABE
  • Patent number: 9279863
    Abstract: A high-temperature superconducting magnetic sensor having superconducting layers formed on a substrate, a superconducting quantum interference device (SQUID) being formed on the superconducting layers, the high-temperature superconducting magnetic sensor includes: a pickup coil that is formed on the superconducting layer and is connected to an inductor of the SQUID; and an input coil that is formed on the superconducting layer, is connected to the inductor of the SQUID and the pickup coil to form a closed loop, and is magnetically coupled with the inductor of the SQUID. In planar view, at least one turn of the input coil surrounds the inductor of the SQUID, or is surrounded by the inductor of the SQUID. The width of the superconductor forming the inductor of the SQUID is 10 ?m or less.
    Type: Grant
    Filed: September 10, 2012
    Date of Patent: March 8, 2016
    Assignee: International Superconductivity Technology Center
    Inventors: Akira Tsukamoto, Seiji Adachi, Yasuo Oshikubo, Keiichi Tanabe
  • Publication number: 20150357091
    Abstract: An RE123-based superconducting wire of the invention includes: a substrate; an intermediate layer provided above the substrate; and an oxide superconducting layer that is provided above the intermediate layer and is made of an oxide superconductor expressed by a composition formula of RE1Ba2Cu3O7-? where RE represents one kind of or two or more kinds of rare earth elements in the formula, wherein an Hf-containing compound of 0.5 to 10 mol % is introduced into the oxide superconducting layer, a different phase containing Hf is dispersed in the oxide superconducting layer as a flux pinning center, and the a-axial-ratio of the oxide superconducting layer is less than or equal to 1.5%.
    Type: Application
    Filed: December 24, 2013
    Publication date: December 10, 2015
    Applicants: FUJIKURA LTD., INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER
    Inventors: Tomo YOSHIDA, Masateru YOSHIZUMI, Teruo IZUMI, Yuh SHIOHARA
  • Publication number: 20150219730
    Abstract: A high-temperature superconducting magnetic sensor having superconducting layers formed on a substrate, a superconducting quantum interference device (SQUID) being formed on the superconducting layers, the high-temperature superconducting magnetic sensor includes: a pickup coil that is formed on the superconducting layer and is connected to an inductor of the SQUID; and an input coil that is formed on the superconducting layer, is connected to the inductor of the SQUID and the pickup coil to form a closed loop, and is magnetically coupled with the inductor of the SQUID. In planar view, at least one turn of the input coil surrounds the inductor of the SQUID, or is surrounded by the inductor of the SQUID. The width of the superconductor forming the inductor of the SQUID is 10 ?m or less.
    Type: Application
    Filed: September 10, 2012
    Publication date: August 6, 2015
    Applicant: INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER
    Inventors: Akira Tsukamoto, Seiji Adachi, Yasuo Oshikubo, Keiichi Tanabe
  • Patent number: 9006146
    Abstract: An AC superconducting cable with an insulating layer on the external circumference of a conductor, and wherein: the insulating layer includes a first insulating layer, a second insulating layer and a third insulating layer, from the inside layer to the outside layer; the insulating layer is impregnated with liquid nitrogen; the product of the dielectric constant ?1 of the first insulating layer and the dielectric loss tangent tan ?1 and the product of the dielectric constant ?2 of the second insulating layer and the dielectric loss tangent tan ?2 fulfilling the relationship ?1×tan ?1>?2×tan ?2; and the product of the dielectric constant ?2 of the second insulating layer and the dielectric loss tangent tan ?2 and the product of the dielectric constant ?3 of the third insulating layer and the dielectric loss tangent tan ?3 fulfilling the relationship ?2×tan ?2<?3×tan ?3.
    Type: Grant
    Filed: May 9, 2011
    Date of Patent: April 14, 2015
    Assignees: Furukawa Electric Co., Ltd., International Superconductivity Technology Center
    Inventors: Shinichi Mukoyama, Masashi Yagi, Tomoya Nomura, Shuka Yonemura
  • Patent number: 8927461
    Abstract: Provided is a substrate for superconductive film formation, which includes a metal substrate, and an oxide layer formed directly on the metal substrate, containing chromium oxide as a major component and having a thickness of 10-300 nm and an arithmetic average roughness Ra of not more than 50 nm. A method of manufacturing a substrate for superconductive film formation, which includes forming an oxide layer directly on a metal substrate, the oxide layer containing chromium oxide as a major component and having a thickness of 10-300 nm and an arithmetic average roughness Ra of not more than 50 nm.
    Type: Grant
    Filed: May 20, 2011
    Date of Patent: January 6, 2015
    Assignees: International Superconductivity Technology Center, Furukawa Electric Co., Ltd., Japan Fine Ceramics Center
    Inventors: Seiki Miyata, Hiroyuki Fukushima, Reiji Kuriki, Akira Ibi, Masateru Yoshizumi, Akio Kinoshita, Yutaka Yamada, Yuh Shiohara, Ryuji Yoshida, Takeharu Kato, Tsukasa Hirayama
  • Publication number: 20140349854
    Abstract: Provided is an iron-based superconducting material including an iron-based superconductor having a crystal structure of ThCr2Si2, and nanoparticles which are expressed by BaXO3 (X represents one, two, or more kinds of elements selected from a group consisting of Zr, Sn, Hf, and Ti) and have a particle size of 30 nm or less. The nanoparticles are dispersed in a volume density of 1×1021m?3 or more.
    Type: Application
    Filed: February 28, 2014
    Publication date: November 27, 2014
    Applicant: International Superconductivity Technology Center
    Inventors: Masashi Miura, Seiji Adachi, Keiichi Tanabe, Hideo Hosono
  • Publication number: 20140345298
    Abstract: The invention relates to a liquid nitrogen cooling sensor device container and liquid nitrogen cooling sensor equipment, and effectively reduces low-frequency noise while maintaining the ease with which a probe can be inserted in and removed from liquid nitrogen. Said invention comprises: a liquid nitrogen containing insulating container that contains liquid nitrogen; a sensor fixing member which has a distal end portion to which a sensor operating at a temperature of the liquid nitrogen is attached; and a fixing buffer member which is for fixing the sensor fixing member to the liquid nitrogen containing insulating container, wherein the fixing buffer member exerts a buffering effect in the liquid nitrogen.
    Type: Application
    Filed: November 5, 2012
    Publication date: November 27, 2014
    Applicants: JAPAN OIL, GAS AND METALS NATIONAL CORPORATION, INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER
    Inventors: Tsunehiro Hato, Keiichi Tanabe
  • Patent number: 8880135
    Abstract: The present invention is configured such that, in a low AC loss oxide superconductor constituted by providing an oxide superconducting layer 6 on a substrate 1, said oxide superconducting layer 6 is separated into a plurality of filament conductors 2 in parallel to the lengthwise direction of said substrate 1 by dividing grooves 3 plurally formed in the widthwise direction of said substrate, and a high-resistance oxide 8 is formed in said dividing grooves 3. Because of the invention, it is possible to increase the insulation properties of individually divided mated filament conductors, and to obtain an oxide superconductor that has low AC loss.
    Type: Grant
    Filed: November 16, 2006
    Date of Patent: November 4, 2014
    Assignees: Railway Technical Research Institute, International Superconductivity Technology Center, the Juridical Foundation, Kyushu University, National University Corporation
    Inventors: Kenji Suzuki, Saburo Hoshi, Junko Matsuda, Teruo Izumi, Yuh Shiohara, Masataka Iwakuma
  • Patent number: 8781542
    Abstract: A high-temperature superconducting magnetic sensor having a superconducting layer formed on a substrate and a plurality of superconducting quantum interference devices fabricated on the superconducting layer, which includes: a plurality of input coils that are formed on the superconducting layer and connected to or magnetically coupled with each of the plurality of the superconducting quantum interference devices; a pickup coil that is formed on the superconducting layer and connected so as to form a closed loop together with the plurality of the input coils; and a plurality of trimming wires that are formed on the superconducting layer and can be cut off, while making a short-circuit between both ends of each of the plurality of the input coils.
    Type: Grant
    Filed: December 15, 2011
    Date of Patent: July 15, 2014
    Assignee: International Superconductivity Technology Center
    Inventors: Akira Tsukamoto, Seiji Adachi, Yasuo Oshikubo, Keiichi Tanabe
  • Publication number: 20140175380
    Abstract: The present invention relates to a superconducting single flux quantum integrated circuit device, and eliminates the return current from a bias current and the effect the bias current itself has on SFQ logic circuits in a chip. A bias power source line for supplying a DC bias current for the superconducting single flux quantum integrated circuit in a chip and a bias drawing power source line for drawing said DC bias current to the outside of the chip are provided, the end of the bias drawing power source line is connected to the ground plane of the chip via a thin-film resistor having a plurality of resistance values of 0.1 milliohm to I milliohm near the superconducting single flux quantum integrated circuit laid out in the chip, and the DC bias current is drawn from a connection point with the ground plane.
    Type: Application
    Filed: February 27, 2014
    Publication date: June 26, 2014
    Applicant: INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER
    Inventors: Hideo Suzuki, Keiichi Tanabe
  • Publication number: 20140148343
    Abstract: An RE123-based superconducting wire includes a base material, an intermediate layer formed on the base material, and an oxide superconducting layer which is formed on the intermediate layer and includes an oxide superconductor having a composition formula represented by RE1Ba2Cu3O7?? (RE represents one or two or more rare earth elements), in which the oxide superconducting layer includes 0.5 to 10 mol % of a Hf-including compound dispersed in the oxide superconducting layer as an artificial pinning center, a film thickness d of the oxide superconducting layer is d>1 ?m, and a current characteristic of Jcd/Jc1?0.9 (Jc1 represents a critical current density when the thickness of the oxide superconducting layer is 1 ?m, and Jcd represents the critical current density when the thickness of the oxide superconducting layer is d ?m) is satisfied.
    Type: Application
    Filed: December 26, 2013
    Publication date: May 29, 2014
    Applicants: Fujikura Ltd., International Superconductivity Technology Center
    Inventors: Hiroshi TOBITA, Masateru YOSHIZUMI, Teruo IZUMI, Yuh SHIOHARA
  • Publication number: 20140027141
    Abstract: A terminal connecting part has: a low temperature container which is filled with a cooling medium; a conductor current lead which has one end immersed in the cooling medium and the other end led to a normal temperature part; and a conductor movable connecting terminal which electrically connects a superconductive conductor layer and the conductor current lead of a superconducting cable. The superconductive conductor layer of the superconducting cable which is stripped stepwise from a front end is connected to the conductor current lead through the conductor movable connecting terminal. The cable core of the superconducting cable is movable in a longitudinal direction and is rotatable in a circumferential direction while maintaining electrical connection between the superconductive conductor layer and the conductor current lead. The cable core is horizontally supported in the low temperature container.
    Type: Application
    Filed: January 26, 2012
    Publication date: January 30, 2014
    Applicants: INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER, FURUKAWA ELECTRIC CO., LTD.
    Inventor: Shuka Yonemura
  • Patent number: 8512799
    Abstract: There is established a superconducting magnet made of a high-temperature bulk superconductor and capable of trapping a high magnetic field with ease and stably. The superconducting magnet made of the high-temperature bulk superconductor, for use by trapping a magnetic field, is made of the bulk superconductor with an artificial hole therein, a low-melting metal impregnated into, and filling up at least the artificial hole, and a heat-conducting metal material embedded in portions of the high-temperature bulk superconductor, impregnated with, and filled with the low-melting metal. The superconducting magnet can be produced by a process involving the steps of providing the artificial hole in the high-temperature bulk superconductor, disposing the heat-conducting metal material in at least the artificial hole, applying a process of impregnating and filling up at least the artificial hole with the low-melting metal, and subsequently, executing a process of magnetizing.
    Type: Grant
    Filed: March 9, 2006
    Date of Patent: August 20, 2013
    Assignees: International Superconductivity Technology Center, The Juridical Foundation, Railway Technical Research Institute, The Juridical Foundation
    Inventors: Masaru Tomita, Masato Murakami
  • Publication number: 20130196857
    Abstract: An AC superconducting cable with an insulating layer on the external circumference of a conductor, and wherein: the insulating layer includes a first insulating layer, a second insulating layer and a third insulating layer, from the inside layer to the outside layer; the insulating layer is impregnated with liquid nitrogen; the product of the dielectric constant ?1 of the first insulating layer and the dielectric loss tangent tan ?1 and the product of the dielectric constant ?2 of the second insulating layer and the dielectric loss tangent tan ?2 fulfilling the relationship ?1×tan ?1>?2×tan ?2; and the product of the dielectric constant ?2 of the second insulating layer and the dielectric loss tangent tan ?2 and the product of the dielectric constant ?3 of the third insulating layer and the dielectric loss tangent tan ?3 fulfilling the relationship ?2×tan ?2<?3×tan ?3.
    Type: Application
    Filed: May 9, 2011
    Publication date: August 1, 2013
    Applicants: INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER, FURUKAWA ELECTRIC CO., LTD.
    Inventors: Shinichi Mukoyama, Masashi Yagi, Tomoya Nomura, Shuka Yonemura
  • Patent number: 8476199
    Abstract: This invention provides a rare earth-type tape-shaped oxide superconductor having excellent mechanical strength and superconducting properties and a composite substrate using for the same. Non-oriented and non-magnetic Ni-9 at % W alloy tapes (11, 21) were bonded onto both sides of a non-oriented and non-magnetic hastelloy tape (100) by a normal temperature bonding process, and an Ni-3 at % W alloy tape (12) having a cubic texture was bonded onto the surface of the tape (11) by a normal temperature bonding process. Thereafter, the heat-treatment was given in a reducing atmosphere and a bonding layer (50a) etc. was formed on the adhesive interface of each layer. Next, a (Ce, Gd)O2 intermediate layer (13) and a Ce2Zr2O7 intermediate layer (14) by an MOD process, a CeO2 intermediate layer (15), a YBCO superconducting film (16) by a TFA-MOD method, and a silver stabilization layer (17) were stacked sequentially on the surface of the tape (12). A critical current value (Ic) of this superconductor showed 150 A.
    Type: Grant
    Filed: February 21, 2008
    Date of Patent: July 2, 2013
    Assignees: International Superconductivity Technology Center, The Juridicial Foundation, SWCC Showa Cable Systems Co., Ltd.
    Inventors: Yuji Aoki, Tsutomu Koizumi, Yasuo Takahashi, Atsushi Kaneko, Takayo Hasegawa, Hiroshi Nakamura
  • Publication number: 20130165326
    Abstract: In a superconducting cable line in which a superconducting cable is connected to a terminal connecting part or an intermediate connecting part, an offset part in which a superconducting cable is laid in a curved-shape is provided near the terminal connecting part or the intermediate connecting part. Further, when it is assumed that the superconducting cable is movable in the offset part, an external tube of the superconducting cable is fixed such that a maximum amplitude part which maximizes the amount of movement of the superconducting cable following thermal expansion and contraction of a cable core becomes immovable.
    Type: Application
    Filed: February 7, 2012
    Publication date: June 27, 2013
    Applicants: INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER, FURUKAWA ELECTRIC CO., LTD.
    Inventors: Masashi Yagi, Shinichi Mukoyama, Tomoya Nomura, Shuka Yonemura
  • Publication number: 20130157867
    Abstract: A thermal insulation tube has a double-structure including a thermal insulation internal tube and a thermal insulation external tube, an intermediate connecting part has a double-structure including an outer container and an inner container, the internal tube and the external tube penetrate through a wall surface of the outer container and are introduced at least up to a wall surface of the inner container, a region between the internal tube and the external tube is sealed by joining an end to be introduced of the internal tube and an end to be introduced of the external tube, at an introduction portion of the external tube to be positioned on an inner side of a wall surface of the outer container, and a corrugated tubular part has a tube wall thinner than the external tube outside of the wall surface.
    Type: Application
    Filed: January 26, 2012
    Publication date: June 20, 2013
    Applicants: INTERNATIONAL SUPERCONDUCTIVITY TECHNOLOGY CENTER, FURUKAWA ELECTRIC CO., LTD.
    Inventors: Masashi Yagi, Takaharu Mitsuhashi, Tomoya Nomura, Taro Matsuoka
  • Patent number: 8431515
    Abstract: A tape-shaped oxide superconductor includes a 15 to 100 nm-thick Ce—Gd—O-based oxide layer (Ce:Gd=40:60 to 70:30 molar ratio) and a 100 nm-thick Ce—Zr—O-based oxide layer (Ce:Zr=50:50 molar ratio) as first and second intermediate layers are formed by MOD on an Ni-base alloy substrate having a half value width (FWHM:??) of 6.5 degrees. A 150 nm-thick CeO2 oxide layer as a third intermediate layer is formed on the second intermediate layer by RF sputtering. A 1 ?m-thick YBCO superconducting layer is formed by TFA-MOD on the three-layer structure. In the tape-shaped oxide superconductor, the ?? values of the first to third intermediate layers are (6.0 to 6.5) degrees, (6.0 to 6.6) degrees, and (6.0 to 6.6) degrees, respectively, and the Jc value of the YBCO superconducting layer in liquid nitrogen is 1.8 to 2.2 MA/cm2.
    Type: Grant
    Filed: May 7, 2008
    Date of Patent: April 30, 2013
    Assignees: International Superconductivity Technology Center, The Juridical Foundation, SWCC Showa Cable Systems Co., Ltd.
    Inventors: Yasuo Takahashi, Tsutomu Koizumi, Yuji Aoki, Atsushi Kaneko, Takayo Hasegawa
  • Publication number: 20130059463
    Abstract: A cryogenic cable termination connector having a small heat inflow from the outside and stable electrical insulation properties. The cryogenic cable termination connector includes a lead-out conductor led out from a site at a very low temperature to a site at room temperature via a liquid refrigerant layer, a refrigerant gas layer, and an oil layer. The lead-out conductor includes a capacitor-cone insulator in which plural metal foils for dividing an electric field from a high voltage level down to the ground voltage level are stacked through an insulator. Among electric field tilting portions in which voltage changes gradually from the high voltage level to the ground voltage level, an electric field tilting portion positioned at a lower part is located in the liquid refrigerant layer and an electric field tilting portion positioned at an upper part is located in the oil layer.
    Type: Application
    Filed: January 31, 2011
    Publication date: March 7, 2013
    Applicants: International Superconductivity Technology Center, the Judicial Foundation, FURUKAWA ELECTRIC CO., LTD.
    Inventors: Shinichi Mukoyama, Masashi Yagi, Tomoya Nomura, Shuka Yonemura