Patents by Inventor Kazunori Shiota
Kazunori Shiota 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: 9228698Abstract: An electromagnetic wave emission device includes a nonlinear crystal which receives exciting light Lp having two wavelength components ?1 and ?2, and outputs terahertz waves L1-L6, a total reflection layer which is in contact with the nonlinear crystal, and totally reflects the terahertz waves L2, L4, and L6 output from the nonlinear crystal, a substrate which mounts the total reflection layer, and top clads which are placed on an opposing surface of the nonlinear crystal, and transmit the terahertz waves L1-L6.Type: GrantFiled: August 11, 2011Date of Patent: January 5, 2016Assignee: ADVANTEST CORPORATIONInventors: Kazunori Shiota, Eiji Kato
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Patent number: 9157857Abstract: According to the present invention, an electromagnetic wave measurement device includes: an electromagnetic wave detector, a frequency component acquisition unit, and a thickness indication quantity deriving unit. An object to be measured is disposed on a substrate and includes at least two layers, and the electromagnetic wave detector detects a substrate-surface-reflected electromagnetic wave which has been made incident to the object, has been reflected by the substrate, and has passed through the object. The frequency component acquisition unit acquires an amplitude of a frequency component of the substrate-surface-reflected electromagnetic wave. The thickness indication quantity deriving unit derives a thickness indication quantity based on the amplitude of the frequency component of the substrate-surface-reflected electromagnetic wave and a relationship between the thickness indication quantity and the amplitude of the frequency component of the substrate-surface-reflected electromagnetic wave.Type: GrantFiled: December 17, 2013Date of Patent: October 13, 2015Assignee: ADVANTEST CORPORATIONInventors: Shigeru Ono, Kazunori Shiota, Masaichi Hashimoto, Akiyoshi Irisawa
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Patent number: 8901477Abstract: According to the present invention, an electromagnetic wave detection device includes an optical waveguide, an electromagnetic wave input unit, and a phase difference measurement unit. According to the thus constructed electromagnetic wave detection device, an optical waveguide is a nonlinear crystal, and includes a branching portion for receiving a probe light pulse, and causing the probe light pulse to branch into two beams of branching light, and two branching light transmission portions for receiving the branching light from the branching portion, and transmitting the branching light. An electromagnetic wave input unit inputs an electromagnetic wave having a frequency equal to or more than 0.01 [THz] and equal to or less than 100 [THz] tilted by an angle generating Cherenkov phase matching with respect to a travel direction of the branching light into one of the two branching light transmission portions.Type: GrantFiled: September 13, 2012Date of Patent: December 2, 2014Assignee: Advantest CorporationInventors: Kazunori Shiota, Akiyoshi Irisawa
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Patent number: 8792792Abstract: [PROBLEM] Providing an optical source that outputs optical frequency modulated light having a constant output optical intensity. [MEANS FOR SOLVING THE PROBLEM] Provided is a light source apparatus that outputs an optical signal having an optical frequency corresponding to a frequency control signal, the light source apparatus including a laser light source section that outputs laser light having an optical frequency corresponding to the frequency control signal; and an optical intensity adjusting section that compensates for intensity change of the laser light to output laser light in which the intensity change caused by a change in the optical frequency is restricted.Type: GrantFiled: October 18, 2011Date of Patent: July 29, 2014Assignee: Advantest CorporationInventors: Shin Masuda, Kazunori Shiota
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Publication number: 20140166883Abstract: According to the present invention, an electromagnetic wave measurement device includes: an electromagnetic wave detector, a frequency component acquisition unit, and a thickness indication quantity deriving unit. An object to be measured is disposed on a substrate and includes at least two layers, and the electromagnetic wave detector detects a substrate-surface-reflected electromagnetic wave which has been made incident to the object, has been reflected by the substrate, and has passed through the object. The frequency component acquisition unit acquires an amplitude of a frequency component of the substrate-surface-reflected electromagnetic wave. The thickness indication quantity deriving unit derives a thickness indication quantity based on the amplitude of the frequency component of the substrate-surface-reflected electromagnetic wave and a relationship between the thickness indication quantity and the amplitude of the frequency component of the substrate-surface-reflected electromagnetic wave.Type: ApplicationFiled: December 17, 2013Publication date: June 19, 2014Inventors: Shigeru ONO, Kazunori SHIOTA, Masaichi HASHIMOTO, Akiyoshi IRISAWA
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Patent number: 8712252Abstract: To efficiently apply jitter to an optical signal using a simple configuration, provided is an optical signal output apparatus that outputs an optical pulse pattern signal including jitter, the optical signal generating apparatus comprising a light source section that outputs an optical signal having an optical frequency corresponding to a frequency control signal; an optical modulation section that modulates the optical signal output by the light source section, according to a designated pulse pattern; and an optical jitter generating section that delays an optical signal passed by the optical modulation section according to the optical frequency, to apply jitter to the optical signal.Type: GrantFiled: October 18, 2011Date of Patent: April 29, 2014Assignee: Advantest CorporationInventors: Shin Masuda, Kazunori Shiota
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Patent number: 8642984Abstract: According to the present invention, an electromagnetic wave emission device includes a nonlinear crystal having an optical waveguide; and a prism including an electromagnetic wave input surface and an electromagnetic wave transmission surface. The electromagnetic wave transmission surface includes a rotation surface which is a trajectory of a tilted line segment rotated about a central axis of the electromagnetic wave input surface, the tilted line segment being tilted with respect to the central axis. The tilted line segment and the central axis are on the same plane. The central axis is in parallel to an extending direction of the optical waveguide. The central axis passes through a projection of the optical waveguide into the electromagnetic wave input surface.Type: GrantFiled: April 15, 2013Date of Patent: February 4, 2014Assignee: Advantest CorporationInventors: Kazunori Shiota, Akiyoshi Irisawa
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Patent number: 8642983Abstract: An electromagnetic wave emission device includes a nonlinear crystal, a prism, and a cylindrical lens. The nonlinear crystal has an optical waveguide, receives exciting light having at least two wavelength components, and outputs an electromagnetic wave having a frequency equal to or more than 0.01 [THz] and equal to or less than 100 [THz] by means of the Cherenkov phase matching. The prism includes an electromagnetic wave input surface receiving the electromagnetic wave from the optical waveguide and an electromagnetic wave transmission surface through which the electromagnetic wave which has entered from the electromagnetic wave input surface passes. The cylindrical lens has two bottom surfaces opposed to each other, a flat surface intersecting with the two bottom surfaces, and a curved surface intersecting with the two bottom surfaces and the flat surface, wherein the flat surface is in contact with the electromagnetic wave transmission surface.Type: GrantFiled: September 11, 2012Date of Patent: February 4, 2014Assignee: Advantest CorporationInventor: Kazunori Shiota
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Publication number: 20130284950Abstract: According to the present invention, an electromagnetic wave emission device includes a nonlinear crystal having an optical waveguide; and a prism including an electromagnetic wave input surface and an electromagnetic wave transmission surface. The electromagnetic wave transmission surface includes a rotation surface which is a trajectory of a tilted line segment rotated about a central axis of the electromagnetic wave input surface, the tilted line segment being tilted with respect to the central axis. The tilted line segment and the central axis are on the same plane. The central axis is in parallel to an extending direction of the optical waveguide. The central axis passes through a projection of the optical waveguide into the electromagnetic wave input surface.Type: ApplicationFiled: April 15, 2013Publication date: October 31, 2013Applicant: ADVANTEST CORPORATIONInventors: Kazunori SHIOTA, Akiyoshi IRISAWA
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Publication number: 20130181146Abstract: An electromagnetic wave emission device includes a nonlinear crystal which receives exciting light Lp having two wavelength components ?1 and ?2, and outputs terahertz waves L1-L6, a total reflection layer which is in contact with the nonlinear crystal, and totally reflects the terahertz waves L2, L4, and L6 output from the nonlinear crystal, a substrate which mounts the total reflection layer, and top clads which are placed on an opposing surface of the nonlinear crystal, and transmit the terahertz waves L1-L6.Type: ApplicationFiled: August 11, 2011Publication date: July 18, 2013Applicant: ADVANTEST CORPORATIONInventors: Kazunori Shiota, Eiji Kato
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Publication number: 20130075597Abstract: According to the present invention, an electromagnetic wave detection device includes an optical waveguide, an electromagnetic wave input unit, and a phase difference measurement unit. According to the thus constructed electromagnetic wave detection device, an optical waveguide is a nonlinear crystal, and includes a branching portion for receiving a probe light pulse, and causing the probe light pulse to branch into two beams of branching light, and two branching light transmission portions for receiving the branching light from the branching portion, and transmitting the branching light. An electromagnetic wave input unit inputs an electromagnetic wave having a frequency equal to or more than 0.01 [THz] and equal to or less than 100 [THz] tilted by an angle generating Cherenkov phase matching with respect to a travel direction of the branching light into one of the two branching light transmission portions.Type: ApplicationFiled: September 13, 2012Publication date: March 28, 2013Applicant: ADVANTEST CORPORATIONInventors: Kazunori SHIOTA, Akiyoshi IRISAWA
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Publication number: 20130068971Abstract: An electromagnetic wave emission device includes a nonlinear crystal, a prism, and a cylindrical lens. The nonlinear crystal has an optical waveguide, receives exciting light having at least two wavelength components, and outputs an electromagnetic wave having a frequency equal to or more than 0.01 [THz] and equal to or less than 100 [THz] by means of the Cherenkov phase matching. The prism includes an electromagnetic wave input surface receiving the electromagnetic wave from the optical waveguide and an electromagnetic wave transmission surface through which the electromagnetic wave which has entered from the electromagnetic wave input surface passes. The cylindrical lens has two bottom surfaces opposed to each other, a flat surface intersecting with the two bottom surfaces, and a curved surface intersecting with the two bottom surfaces and the flat surface, wherein the flat surface is in contact with the electromagnetic wave transmission surface.Type: ApplicationFiled: September 11, 2012Publication date: March 21, 2013Applicant: ADVANTEST CORPORATIONInventor: Kazunori SHIOTA
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Publication number: 20120269521Abstract: To efficiently apply jitter to an optical signal using a simple configuration, provided is an optical signal generating apparatus that outputs an optical pulse pattern signal including jitter, the optical signal generating apparatus comprising a light source section that outputs laser light having an optical frequency corresponding to a frequency control signal, an optical modulation section that modulates an optical signal output by the light source section, according to a designated pulse pattern, and an optical jitter generating section that delays an optical signal passed by the optical modulation section according to the optical frequency, to apply jitter to the optical signal.Type: ApplicationFiled: October 18, 2011Publication date: October 25, 2012Applicant: ADVANTEST CORPORATIONInventors: Shin Masuda, Kazunori Shiota
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Patent number: 8224143Abstract: Provided is a substrate structure and a manufacturing method thereof, the substrate structure including a base substrate of single crystal; and a rhombohedral ferroelectric thin film exhibiting a spontaneous ferroelectric polarization and of a perovskite structure, the ferroelectric thin film being formed on a surface of the base substrate. The substrate structure may further include an optical waveguide formed on the ferroelectric thin film; and an electric field applying section that applies, to the optical waveguide, an electric field parallel to a surface of the base substrate. The electric field applying section generates the electric field so that the electric field direction of the electric field applied to the optical waveguide is parallel to a direction of the spontaneous ferroelectric polarization of the ferroelectric thin film.Type: GrantFiled: February 26, 2010Date of Patent: July 17, 2012Assignee: Advantest CorporationInventors: Shin Masuda, Kazunori Shiota, Atsushi Seki
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Publication number: 20120177363Abstract: To efficiently apply jitter to an optical signal using a simple configuration, provided is an optical signal output apparatus that outputs an optical pulse pattern signal including jitter, the optical signal generating apparatus comprising a light source section that outputs an optical signal having an optical frequency corresponding to a frequency control signal; an optical modulation section that modulates the optical signal output by the light source section, according to a designated pulse pattern; and an optical jitter generating section that delays an optical signal passed by the optical modulation section according to the optical frequency, to apply jitter to the optical signal.Type: ApplicationFiled: October 18, 2011Publication date: July 12, 2012Applicant: ADVANTEST CORPORATIONInventors: Shin MASUDA, Kazunori SHIOTA
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Patent number: 8170071Abstract: Provided is a laser apparatus including: a DFB fiber laser 40 including, as an amplitude medium, a rare earth doped silica optical fiber codoped with a high concentration of aluminum; an optical feedback path 50 formed by a ring-shaped optical fiber; and an optical coupler 70 a) feeding back a part of an output of the DFB fiber laser 40 to the DFB fiber laser 40 via the optical feedback path 50, and b) outputting, to outside, another part of the output of the DFB fiber laser 40, where the optical fiber forming the optical feedback path 50 is longer than a length at which a relaxation oscillation noise in the output to the outside becomes ?110 dB/Hz.Type: GrantFiled: March 5, 2009Date of Patent: May 1, 2012Assignees: Advantest CorporationInventors: Masataka Nakazawa, Akihito Suzuki, Toshihiko Hirooka, Masato Yoshida, Kazunori Shiota
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Publication number: 20110195274Abstract: Provided is a substrate structure and a manufacturing method thereof, the substrate structure including a base substrate of single crystal; and a rhombohedral ferroelectric thin film exhibiting a spontaneous ferroelectric polarization and of a perovskite structure, the ferroelectric thin film being formed on a surface of the base substrate. The substrate structure may further include an optical waveguide formed on the ferroelectric thin film; and an electric field applying section that applies, to the optical waveguide, an electric field parallel to a surface of the base substrate. The electric field applying section generates the electric field so that the electric field direction of the electric field applied to the optical waveguide is parallel to a direction of the spontaneous ferroelectric polarization of the ferroelectric thin film.Type: ApplicationFiled: February 26, 2010Publication date: August 11, 2011Applicant: ADVANTEST CORPORATIONInventors: SHIN MASUDA, KAZUNORI SHIOTA, ATSUSHI SEKI
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Patent number: 7898733Abstract: A laser oscillator includes a ring resonator. The ring resonator includes an optical circulator having first, second, third, and fourth ports and a first optical amplification fiber connected to the optical circulator. Light incident on the first port is exited from the second port, and light incident on the second port is exited from the third port. The fourth port provides an exciting light and injects the exciting light into the ring resonator through the first port. The first optical amplification fiber amplifies light exited from the third port with the exciting light provided by the fourth port. The laser oscillator also includes an optical member connected to the optical circulator. The optical member reflects at least a part of the light exited from the second port and injects the same into the second port again.Type: GrantFiled: April 13, 2009Date of Patent: March 1, 2011Assignees: Advantest Corporation, National University Corporation Tohoku UniversityInventors: Kazunori Shiota, Shin Masuda, Masataka Nakazawa, Masato Yoshida
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Publication number: 20100067100Abstract: A laser oscillator includes a ring resonator. The ring resonator includes an optical circulator having first, second, third, and fourth ports and a first optical amplification fiber connected to the optical circulator. Light incident on the first port is exited from the second port, and light incident on the second port is exited from the third port. The fourth port provides an exciting light and injects the exciting light into the ring resonator through the first port. The first optical amplification fiber amplifies light exited from the third port with the exciting light provided by the fourth port. The laser oscillator also includes an optical member connected to the optical circulator. The optical member reflects at least a part of the light exited from the second port and injects the same into the second port again.Type: ApplicationFiled: April 13, 2009Publication date: March 18, 2010Applicants: ADVANTEST CORPORATION, NATIONAL UNIVERSITY CORPORATION TOHOKU UNIVERSITYInventors: Kazunori Shiota, Shin Masuda, Masataka Nakazawa, Masato Yoshida
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Patent number: D737765Type: GrantFiled: August 19, 2014Date of Patent: September 1, 2015Assignee: SMC CORPORATIONInventors: Mitsuo Sekine, Kazunori Shiota, Yoshiyuki Nishimura