Patents by Inventor Yuichi Iwata
Yuichi Iwata 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: 20110032600Abstract: An oscillating device includes an oscillating substrate 11 of a non-linear optical crystal and having an incident face 11c where a pump wave 3 and an idler wave 4 are made incident; a first waveguide 24A provided in the oscillating substrate 11 and between the incident face 11c and an interacting part 20 of the pump wave 3 and idler waves 4; and a second waveguide 24B provided in the oscillating substrate 11 and between the incident face 11c and the interacting part 20. The first waveguide 24A guides the pump wave 3 and the second waveguide 24B guides the idler wave 4.Type: ApplicationFiled: August 6, 2010Publication date: February 10, 2011Applicant: NGK Insulators, Ltd.Inventors: Jungo KONDO, Kenji AOKI, Yuichi IWATA, Tetsuya EJIRI
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Patent number: 7869669Abstract: The invention provides an optical phase modulator having a substrate made of an electro-optical material, a signal electrode provided on the substrate and first and second ground electrodes provided on both sides of the signal electrode. The electrodes are provided so that a size of the first gap between the first ground electrode and the signal electrode is smaller than a size of a second gap between the second ground electrode and the signal electrode. Furthermore, an optical waveguide is provided in the first gap as an optical phase modulator and not provided in the second gap. A driving voltage required for the phase adjustments is thereby lowered, the impedance matching is easily made and excellent radio frequency property can be realized.Type: GrantFiled: July 28, 2009Date of Patent: January 11, 2011Assignee: NGK Insulators, Ltd.Inventors: Osamu Mitomi, Kenji Aoki, Jungo Kondo, Yuichi Iwata, Tetsuya Ejiri, Akiyoshi Ide
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Patent number: 7854049Abstract: In a piezoelectric thin film device of the present invention, the degree of flexibility is enhanced in selection of a piezoelectric material constituting a piezoelectric thin film and the crystal orientation in the piezoelectric thin film. A piezoelectric thin film filter, including four film bulk acoustic resonators, has a configuration where a filter section for providing a filter function of the piezoelectric thin film filter is bonded with a flat base substrate mechanically supporting the filter section via an adhesive layer. In manufacturing of the piezoelectric thin film filter, a piezoelectric thin film is obtained by performing removal processing on a piezoelectric substrate, but the piezoelectric thin film obtained by removal processing cannot independently stand up under its own weight. For this reason, a prescribed member including the piezoelectric substrate is previously bonded to the base substrate as a support prior to the removal processing.Type: GrantFiled: February 16, 2007Date of Patent: December 21, 2010Assignees: NGK Insulators, Ltd., NGK Optoceramics Co., Ltd.Inventors: Takashi Yoshino, Shoichiro Yamaguchi, Yuichi Iwata, Akira Hamajima, Kengo Suzuki
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Publication number: 20100269567Abstract: It is used a filter trapping particulates from a gas containing the particulates, a container 5 containing the filter, an upstream pipe 3 provided on the upstream side of the container 5 to lead the gas “A” into the container 5, a downstream pipe 4 provided on the downstream side of the container 5 to lead the gas “B” after the gas passed through the filter, a transmitting antenna 11 to transmit an electromagnetic wave having a frequency of 80 GHz or more and 200 GHz or less, and a receiving antenna 10 to receive the electromagnetic wave. An amount of the particulates trapped in the filter is detected based on an intensity of the electromagnetic wave received by the receiving antenna 10.Type: ApplicationFiled: March 11, 2010Publication date: October 28, 2010Applicant: NGK Insulators, Ltd.Inventors: Jungo Kondo, Keiji Matsuhiro, Yuichi Iwata, Kenji Aoki, Tetsuya Ejiri
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Patent number: 7809218Abstract: An object of the present invention is, in an optical modulator, to increase the production yield by enhancing the patterning accuracy of the electrodes, as well as to reduce the electrode loss by increasing the thickness of the electrodes. An optical modulator has a substrate 5 made of an electro-optical material; a modulation electrode 2A, 3A, 2B provided on the substrate 5; and an optical waveguide 1c provided on the substrate 5. Light propagating through the optical waveguide 1c is modulated by applying a modulation voltage to the modulation electrode. At least a part of the modulation electrode includes a base 2a, 3a formed on the substrate 5 and a projection part 2b, 3b having a width narrower than that of the base.Type: GrantFiled: December 17, 2008Date of Patent: October 5, 2010Assignee: NGK Insulators, Ltd.Inventors: Yuichi Iwata, Osamu Mitomi, Jungo Kondo, Kenji Aoki
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Patent number: 7787773Abstract: It is provided a radio oscillating system for oscillating a radio signal. The system has an optical modulator for oscillation, a modulating means for inputting a modulating signal of a frequency of fm into the optical modulator to modulate a carrier wave so as to interpose sideband waves onto the carrier wave at positions shifted with respect to the frequency of the carrier wave by the frequency “fm”; and an optical receiver for oscillation for receiving beam from the optical modulator and converting the beam into an electrical signal. The system further has a radiating means for radiating radio signal of a frequency of 2fm based on the electrical signal. An input voltage Vp-p applied on the optical modulator is 1.0 times or more and 1.99 times or less of a half-wavelength voltage V? of the optical modulator.Type: GrantFiled: September 14, 2006Date of Patent: August 31, 2010Assignee: NGK Insulators, Ltd.Inventors: Jungo Kondo, Osamu Mitomi, Kenji Aoki, Yuichi Iwata, Tetsuya Ejiri
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Patent number: 7787714Abstract: An object of the present invention is to widen the band of the velocity matching frequency as well as to reduce the electrode loss in the modulation electrode. An optical modulator has a substrate made of an electro-optical material, a signal electrode 3A, 3B and a ground electrode 2A, 2B provided on the substrate, an optical waveguide provided on the substrate. The signal electrode and the ground electrode each has an interaction section 2a, 2c, 3a, 3c and a feed-through section 2b, 2d, 3b, 3d. Light propagating through the optical waveguide is modulated by applying a modulation voltage on the interaction section. The thickness of the feed-through section is greater than that of the interaction section.Type: GrantFiled: December 17, 2008Date of Patent: August 31, 2010Assignee: NGK Insulators, Ltd.Inventors: Yuichi Iwata, Osamu Mitomi, Jungo Kondo, Kenji Aoki
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Patent number: 7778497Abstract: An optical modulator having an optical modulation part and a connection part for an optical fiber propagating light. The optical modulation part has a modulation substrate of an electro-optic material, a modulation optical waveguide formed on the modulation substrate, a high frequency interaction part for applying a voltage to the modulation optical waveguide to modulate the propagation of light, a first supporting substrate and a first adhesion layer for adhering the modulation substrate to the first supporting substrate. The connection part has a connection substrate of an electro-optic material, a connection optical waveguide formed on the connection substrate, a second supporting substrate, and a second adhesion layer for adhering the connection substrate to the second supporting substrate. The modulation substrate is adhered to the connection substrate. The first supporting substrate is adhered to the second supporting substrate.Type: GrantFiled: March 11, 2009Date of Patent: August 17, 2010Assignee: NGK Insulators, Ltd.Inventors: Osamu Mitomi, Kenji Aoki, Tetsuya Ejiri, Akiyoshi Ide, Jungo Kondo, Yuichi Iwata
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Publication number: 20100201562Abstract: It is provided a radio oscillating system for oscillating a radio signal. The system has an optical modulator for oscillation, a modulating means for inputting a modulating signal of a frequency of fm into the optical modulator to modulate a carrier wave so as to interpose sideband waves onto the carrier wave at positions shifted with respect to the frequency of the carrier wave by the frequency “fm”; and an optical receiver for oscillation for receiving beam from the optical modulator and converting the beam into an electrical signal. The system further has a radiating means for radiating radio signal of a frequency of 2 fm based on the electrical signal. An input voltage Vp?p applied on the optical modulator is 1.0 times or more and 1.99 times or less of a half-wavelength voltage V? of the optical modulator.Type: ApplicationFiled: September 14, 2006Publication date: August 12, 2010Applicant: NGK Insulators, Ltd.Inventors: Jungo Kondo, Osamu Mitomi, Kenji Aoki, Yuichi Iwata, Tetsuya Ejiri
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Patent number: 7689066Abstract: An optical modulator is provided for modulating light propagating in a three-dimensional optical waveguide 5 by applying a voltage thereto. The optical modulator has the three-dimensional optical waveguide 5 including at least one pair of branch optical waveguides 5c and 5d, a multiplexing part 5e of the branch optical waveguides and an emission part 5f provided in the downstream of the multiplexing part, modulation electrodes 3A, 3B and 4 for applying a signal voltage for modulating light propagating in the three-dimensional optical waveguide 5, and guiding waveguides 6A and 6B for guiding primary mode light from the multiplexing part. Thickness of the substrate is 20 ?m or less at least under the modulation electrodes, and an operation point of the optical modulator is controlled by changing, based on light output from the guiding waveguides, DC bias applied onto the modulation electrodes.Type: GrantFiled: August 20, 2007Date of Patent: March 30, 2010Assignee: NGK Insulators, Ltd.Inventors: Jungo Kondo, Osamu Mitomi, Kenji Aoki, Yuichi Iwata, Tetsuya Ejiri
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Patent number: 7668410Abstract: It is provided a novel method of producing polarization inversion parts by electric field polling process wherein the polarization inversion part extends to a deeper point from the surface of a substrate. The polarization inversion part is produced by electric field polling process using a comb electrode having a plurality of electrode portions 5 and a feeding portion 1. Each electrode portion 5 has a base portion 6 extending from the feeding portion 1 and a plurality of conductive portions 5a, 5b and 5c separated from the base portions 6, and the conductive portions have an average length “d” of 4 ?m or longer and 9 ?m or shorter. Alternatively, each electrode portion 5 has a base portion 6 extending from the feeding portion 1 and a plurality of conductive portions 5a, 5b and 5c separated from the base portion 6, and the conductive portion 5b at the tip end of the electrode portion has a length “db” smaller than the length “da” of the conductive portion 5b nearest to the base portion.Type: GrantFiled: December 8, 2006Date of Patent: February 23, 2010Assignees: NGK Insulators, Ltd., NGK Optoceramics Co., Ltd.Inventors: Shoichiro Yamaguchi, Yuichi Iwata, Kengo Suzuki
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Patent number: 7660506Abstract: An optical waveguide structure has a slab type photonic crystal and an optical waveguide provided in the photonic crystal. The photonic crystal has a slab of a dielectric film and a plurality of lattice columns each having dielectric pillars. The dielectric pillars included in the lattice columns at least in n'th order (n represents 1, 2, 3, 4 and 5) in distance with respect to said optical waveguide, respectively, has a planar shape of an equilateral polygon or exact circle. At least one of the dielectric pillars included in the lattice columns at least in n'th order (n represents 2, 3, 4 and 5) with respect to the optical waveguide has a size rn different from a fundamental size ro.Type: GrantFiled: May 18, 2007Date of Patent: February 9, 2010Assignee: NGK Insulators, Ltd.Inventors: Osamu Mitomi, Yuichi Iwata, Jungo Kondo, Kenji Aoki, Tetsuya Ejiri
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Publication number: 20090290830Abstract: The invention provides an optical phase modulator having a substrate made of an electro-optical material, a signal electrode provided on the substrate and first and second ground electrodes provided on both sides of the signal electrode. The electrodes are provided so that a size of the first gap between the first ground electrode and the signal electrode is smaller than a size of a second gap between the second ground electrode and the signal electrode. Furthermore, an optical waveguide is provided in the first gap as an optical phase modulator and not provided in the second gap. A driving voltage required for the phase adjustments is thereby lowered, the impedance matching is easily made and excellent radio frequency property can be realized.Type: ApplicationFiled: July 28, 2009Publication date: November 26, 2009Applicant: NGK Insulators, Ltd.Inventors: Osamu Mitomi, Kenji Aoki, Jungo Kondo, Yuichi Iwata, Tetsuya Ejiri, Akiyoshi Ide
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Publication number: 20090274408Abstract: An optical modulator component 2 has a substrate 4 for modulation made of an electro-optical material and having a joining face 4b; an optical waveguide 6 provided in or on the substrate 4 and having at least one pair of branched portions 6c; and a radio-frequency interaction portion 11 applying a voltage on the respective branched portions 6c to modulate light propagating through the branched portions. The optical waveguide 6 has end faces 15A, 15B, 15C and 15D present on the joining face 4b of the substrate 4 for modulation.Type: ApplicationFiled: July 9, 2009Publication date: November 5, 2009Applicant: NGK Insulators, Ltd.Inventors: Kenji AOKI, Osamu MITOMI, Jungo KONDO, Yuichi IWATA, Tetsuya EJIRI
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Publication number: 20090232439Abstract: An optical modulator having an optical modulation part and a connection part for an optical fiber propagating light. The optical modulation part has a modulation substrate of an electro-optic material, a modulation optical waveguide formed on the modulation substrate, a high frequency interaction part for applying a voltage to the modulation optical waveguide to modulate the propagation of light, a first supporting substrate and a first adhesion layer for adhering the modulation substrate to the first supporting substrate. The connection part has a connection substrate of an electro-optic material, a connection optical waveguide formed on the connection substrate, a second supporting substrate, and a second adhesion layer for adhering the connection substrate to the second supporting substrate. The modulation substrate is adhered to the connection substrate. The first supporting substrate is adhered to the second supporting substrate.Type: ApplicationFiled: March 11, 2009Publication date: September 17, 2009Applicant: NGK Insulators, Ltd.Inventors: Osamu MITOMI, Kenji AOKI, Tetsuya EJIRI, Akiyoshi IDE, Jungo KONDO, Yuichi IWATA
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Publication number: 20090154867Abstract: An object of the present invention is, in an optical modulator, to increase the production yield by enhancing the patterning accuracy of the electrodes, as well as to reduce the electrode loss by increasing the thickness of the electrodes. An optical modulator has a substrate 5 made of an electro-optical material; a modulation electrode 2A, 3A, 2B provided on the substrate 5; and an optical waveguide 1c provided on the substrate 5. Light propagating through the optical waveguide 1c is modulated by applying a modulation voltage to the modulation electrode. At least a part of the modulation electrode includes a base 2a, 3a formed on the substrate 5 and a projection part 2b, 3b having a width narrower than that of the base.Type: ApplicationFiled: December 17, 2008Publication date: June 18, 2009Applicant: NGK Insulators, Ltd.Inventors: Yuichi Iwata, Osamu Mitomi, Jungo Kondo, Kenji Aoki
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Publication number: 20090154866Abstract: An object of the present invention is to widen the band of the velocity matching frequency as well as to reduce the electrode loss in the modulation electrode. An optical modulator has a substrate made of an electro-optical material, a signal electrode 3A, 3B and a ground electrode 2A, 2B provided on the substrate, an optical waveguide provided on the substrate. The signal electrode and the ground electrode each has an interaction section 2a, 2c, 3a, 3c and a feed-through section 2b, 2d, 3b, 3d. Light propagating through the optical waveguide is modulated by applying a modulation voltage on the interaction section. The thickness of the feed-through section is greater than that of the interaction section.Type: ApplicationFiled: December 17, 2008Publication date: June 18, 2009Applicant: NGK Insulators, Ltd.Inventors: Yuichi Iwata, Osamu Mitomi, Jungo Kondo, Kenji Aoki
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Patent number: 7532777Abstract: An optical functional device has a slab type two-dimensional photonic crystal layer. The photonic crystal layer has a dielectric layer and a plurality of lattice columns each comprising dielectric pillars. A waveguide portion is provided in the photonic crystal layer. A ground electrode and a signal electrode are formed on the dielectric layer for applying a modulating voltage on light propagating in the waveguide portion. A layer of a high dielectric constant is laminated on the dielectric layer. A low dielectric portion is formed direct under the waveguide portion and the lattice columns 7A, 7B and 7C of at least first, second and third orders in distance with respect to said waveguide portion.Type: GrantFiled: August 21, 2007Date of Patent: May 12, 2009Assignee: NGK Insulators, Ltd.Inventors: Osamu Mitomi, Yuichi Iwata, Jungo Kondo, Kenji Aoki, Tetsuya Ejiri
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Patent number: 7529447Abstract: The present invention provides an optical waveguide device having a configuration such that the optical waveguide is folded back on an end area of the optical waveguide substrate to widen the modulation band. The optical waveguide device 1A includes a substrate body 2 made of an electro-optical material, optical waveguide 6, and modulation electrodes 3, 4 and 5 for applying a voltage on the optical waveguide 6. The optical waveguide 6 includes first primary areas 6e and 6f, a first curved area 7A, first folding-back areas 6g and 6h provided between the first curved area 7A and a folding-back point 8, second primary areas 6m and 6n, a second curved area 7B, and second folding-back areas 6j and 6k provided between the second curved area 7B and the folding-back point 8. At least a part of the signal electrode is provided in a folding-back region extending from the first curved area 7A and the second curved area 7B to the folding-back point 8.Type: GrantFiled: May 15, 2008Date of Patent: May 5, 2009Assignee: NGK Insulators, Ltd.Inventors: Kenji Aoki, Osamu Mitomi, Jungo Kondo, Yuichi Iwata, Tetsuya Ejiri
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Patent number: 7522791Abstract: When a domain inversion part is produced by means of electric field polling process, damage in the vicinity of the forward end of a comb electrode and deviation of width of each domain inversion part are to be reduced. A polarization domain inversion structure has polarization domain inversion parts is produced by electric field poling process using a comb electrode formed on one surface of a substrate of a ferroelectric single crystal and of a single domain, and the comb electrode has a plurality of electrode portions and feeding portion. Each of the electrode portions corresponds with each domain inversion part of the domain inversion structure. The electrode portion has a plurality of low resistance pieces arranged in a direction “F” intersecting the longitudinal direction “E” of the electrode portion and spaced apart with each other.Type: GrantFiled: March 1, 2007Date of Patent: April 21, 2009Assignees: NGK Insulators, Ltd., NGK Optoceramics Co., Ltd.Inventors: Shoichiro Yamaguchi, Yuichi Iwata, Kengo Suzuki