Patents by Inventor Takashi ONOSE
Takashi ONOSE 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: 20230311247Abstract: A laser machining method forms a machined portion in a machining area of a machining object by irradiating the machining area with a pulse laser beam. The laser machining method includes an irradiation process of irradiating the machining area with the pulse laser beam output from an excimer laser apparatus by guiding the pulse laser beam to part of the machining area and moving the guided pulse laser beam through irradiation spots, and a movement process of moving the machining object in a height direction of the machining object. The irradiation process is performed at a plurality of height positions on the machining object moved in the height direction in the movement process. In the irradiation process, at least part of each of the irradiation spots of the pulse laser beam overlaps another irradiation spot adjacent to the irradiation spot.Type: ApplicationFiled: June 9, 2023Publication date: October 5, 2023Applicant: Gigaphoton Inc.Inventor: Takashi ONOSE
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Patent number: 11682877Abstract: A laser system including: A. a laser apparatus configured to output a pulse laser beam; B. an optical pulse stretcher including a delay optical path for expanding a pulse width of the pulse laser beam; and C. a phase optical element included in the delay optical path and having a function of spatially and randomly shifting a phase of the pulse laser beam. The phase optical element includes a plurality of types of cells providing different amounts of phase shift to the pulse laser beam and arranged irregularly in any direction.Type: GrantFiled: April 22, 2021Date of Patent: June 20, 2023Assignee: Gigaphoton Inc.Inventor: Takashi Onose
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Publication number: 20210242649Abstract: A laser system including: A. a laser apparatus configured to output a pulse laser beam; B. an optical pulse stretcher including a delay optical path for expanding a pulse width of the pulse laser beam; and C. a phase optical element included in the delay optical path and having a function of spatially and randomly shifting a phase of the pulse laser beam. The phase optical element includes a plurality of types of cells providing different amounts of phase shift to the pulse laser beam and arranged irregularly in any direction.Type: ApplicationFiled: April 22, 2021Publication date: August 5, 2021Applicant: Gigaphoton Inc.Inventor: Takashi ONOSE
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Publication number: 20210226411Abstract: A laser system according to one aspect of the present disclosure includes a wavelength-variable first solid-state laser device configured to output a first pulse laser beam; a wavelength conversion system including a first nonlinear crystal configured to wavelength-convert the first pulse laser beam and a first rotation stage configured to change a first incident angle of the first pulse laser beam on the first nonlinear crystal; an excimer amplifier configured to amplify a pulse laser beam wavelength-converted by the wavelength conversion system; and a control unit configured to receive, from an external device, data of a target center wavelength of an excimer laser beam output from the excimer amplifier, control a wavelength of the first pulse laser beam in accordance with the instructed target center wavelength, and control the first incident angle on the first nonlinear crystal in accordance with an average value of the target center wavelength.Type: ApplicationFiled: April 2, 2021Publication date: July 22, 2021Applicant: Gigaphoton Inc.Inventors: Taisuke MIURA, Takashi ONOSE, Osamu WAKABAYASHI
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Patent number: 11025026Abstract: A laser system including: A. a laser apparatus configured to output a pulse laser beam; B. an optical pulse stretcher including a delay optical path for expanding a pulse width of the pulse laser beam; and C. a phase optical element included in the delay optical path and having a function of spatially and randomly shifting a phase of the pulse laser beam. The phase optical element includes a plurality of types of cells providing different amounts of phase shift to the pulse laser beam and arranged irregularly in any direction.Type: GrantFiled: June 3, 2019Date of Patent: June 1, 2021Assignee: Gigaphoton Inc.Inventor: Takashi Onose
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Patent number: 10879663Abstract: A solid-state laser system includes: a first solid-state laser device configured to output a first pulse laser beam; a second solid-state laser device configured to output a second pulse laser beam; a first non-linear crystal disposed on a first optical path and configured to convert the first and second pulse laser beams into a third pulse laser beam and output the third pulse laser beam; and a second non-linear crystal disposed on a second optical path and configured to convert the second and third pulse laser beams into a fourth pulse laser beam and output the fourth pulse laser beam. The second pulse laser beam is incident on the second non-linear crystal at a first timing before the first non-linear crystal. Residual light of the second pulse laser beam is incident on the first non-linear crystal at a second timing later than the first timing.Type: GrantFiled: August 7, 2019Date of Patent: December 29, 2020Assignee: Gigaphoton Inc.Inventor: Takashi Onose
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Patent number: 10587089Abstract: A solid state laser device includes a seed laser that outputs continuous wave laser seed light, a light intensity changeable unit that changes a light intensity thereof and outputs seed pulse light, a CW excitation laser that outputs continuous wave excitation light, an amplifier that amplifies the seed pulse light and outputs amplified light based on an amplification gain increased by the excitation light, a wavelength conversion unit that converts a wavelength of the amplified light and outputs harmonic light, and a light intensity control unit that allows the light intensity changeable unit to output the seed pulse light after a certain time elapsed from an input of an external trigger signal each time the signal is input and output suppression light that suppresses an increase of the amplification gain in a period after an output of the seed pulse light until an input of a next external trigger signal.Type: GrantFiled: June 20, 2019Date of Patent: March 10, 2020Assignee: Gigaphoton Inc.Inventors: Takashi Onose, Osamu Wakabayashi
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Publication number: 20190363504Abstract: A solid-state laser system includes: a first solid-state laser device configured to output a first pulse laser beam; a second solid-state laser device configured to output a second pulse laser beam; a first non-linear crystal disposed on a first optical path and configured to convert the first and second pulse laser beams into a third pulse laser beam and output the third pulse laser beam; and a second non-linear crystal disposed on a second optical path and configured to convert the second and third pulse laser beams into a fourth pulse laser beam and output the fourth pulse laser beam. The second pulse laser beam is incident on the second non-linear crystal at a first timing before the first non-linear crystal. Residual light of the second pulse laser beam is incident on the first non-linear crystal at a second timing later than the first timing.Type: ApplicationFiled: August 7, 2019Publication date: November 28, 2019Applicant: Gigaphoton Inc.Inventor: Takashi ONOSE
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Publication number: 20190305508Abstract: A solid state laser device includes a seed laser that outputs continuous wave laser seed light, a light intensity changeable unit that changes a light intensity thereof and outputs seed pulse light, a CW excitation laser that outputs continuous wave excitation light, an amplifier that amplifies the seed pulse light and outputs amplified light based on an amplification gain increased by the excitation light, a wavelength conversion unit that converts a wavelength of the amplified light and outputs harmonic light, and a light intensity control unit that allows the light intensity changeable unit to output the seed pulse light after a certain time elapsed from an input of an external trigger signal each time the signal is input and output suppression light that suppresses an increase of the amplification gain in a period after an output of the seed pulse light until an input of a next external trigger signal.Type: ApplicationFiled: June 20, 2019Publication date: October 3, 2019Applicant: Gigaphoton Inc.Inventors: Takashi ONOSE, Osamu WAKABAYASHI
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Publication number: 20190288472Abstract: A laser system including: A. a laser apparatus configured to output a pulse laser beam; B. an optical pulse stretcher including a delay optical path for expanding a pulse width of the pulse laser beam; and C. a phase optical element included in the delay optical path and having a function of spatially and randomly shifting a phase of the pulse laser beam. The phase optical element includes a plurality of types of cells providing different amounts of phase shift to the pulse laser beam and arranged irregularly in any direction.Type: ApplicationFiled: June 3, 2019Publication date: September 19, 2019Applicant: Gigaphoton Inc.Inventor: Takashi ONOSE
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Patent number: 10374382Abstract: A solid state laser device includes a seed laser that outputs continuous wave laser seed light, a light intensity changeable unit that changes a light intensity thereof and outputs seed pulse light, a CW excitation laser that outputs continuous wave excitation light, an amplifier that amplifies the seed pulse light and outputs amplified light based on an amplification gain increased by the excitation light, a wavelength conversion unit that converts a wavelength of the amplified light and outputs harmonic light, and a light intensity control unit that allows the light intensity changeable unit to output the seed pulse light after a certain time elapsed from an input of an external trigger signal each time the signal is input and output suppression light that suppresses an increase of the amplification gain in a period after an output of the seed pulse light until an input of a next external trigger signal.Type: GrantFiled: September 7, 2018Date of Patent: August 6, 2019Assignee: Gigaphoton Inc.Inventors: Takashi Onose, Osamu Wakabayashi
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Patent number: 10256594Abstract: A solid-state laser system may include first and second solid-state laser units, a wavelength conversion system, an optical shutter, and a controller. The first solid-state laser unit and the second solid-state laser unit may output first pulsed laser light with a first wavelength and second pulsed laser light with a second wavelength, respectively. The controller may perform first control and second control. The first control may cause the first and second pulsed laser light to enter the wavelength conversion system at a substantially coincidental timing, thereby causing the wavelength conversion system to output third pulsed laser light with a third wavelength converted from the first wavelength and the second wavelength, and the second control may prevent the first and second pulsed laser light from entering the wavelength conversion system at the coincidental timing, thereby preventing the wavelength conversion system from outputting the third pulsed laser light.Type: GrantFiled: June 7, 2017Date of Patent: April 9, 2019Assignee: Gigaphoton Inc.Inventors: Takashi Onose, Osamu Wakabayashi
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Publication number: 20190103724Abstract: A laser system includes a laser device configured to output pulse laser light, and a first optical pulse stretcher including a delay optical path for stretching a pulse width of the pulse laser light. The first optical pulse stretcher is configured to change a beam waist position of circulation light that circulates through the delay optical path and is output therefrom, in an optical path axis direction according to a circulation count. When the circulation light is condensed by an ideal lens, a light condensing position of the circulation light is changed in the optical path axis direction according to the circulation count.Type: ApplicationFiled: December 4, 2018Publication date: April 4, 2019Applicant: GIGAPHOTON INC.Inventors: Takashi ONOSE, Osamu WAKABAYASHI
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Publication number: 20190006817Abstract: A solid state laser device includes a seed laser that outputs continuous wave laser seed light, a light intensity changeable unit that changes a light intensity thereof and outputs seed pulse light, a CW excitation laser that outputs continuous wave excitation light, an amplifier that amplifies the seed pulse light and outputs amplified light based on an amplification gain increased by the excitation light, a wavelength conversion unit that converts a wavelength of the amplified light and outputs harmonic light, and a light intensity control unit that allows the light intensity changeable unit to output the seed pulse light after a certain time elapsed from an input of an external trigger signal each time the signal is input and output suppression light that suppresses an increase of the amplification gain in a period after an output of the seed pulse light until an input of a next external trigger signal.Type: ApplicationFiled: September 7, 2018Publication date: January 3, 2019Applicant: GIGAPHOTON INC.Inventors: Takashi ONOSE, Osamu WAKABAYASHI
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Patent number: 9929529Abstract: A solid-state laser system may include a first solid-state laser unit, a second solid-state laser unit, a wavelength conversion system, a wavelength detector, and a wavelength controller. The wavelength conversion system may receive a first pulsed laser light beam with a first wavelength and a second pulsed laser light beam with a second wavelength, and output a third pulsed laser light beam with a third wavelength converted from the first and second wavelengths. The wavelength controller may control the first solid-state laser unit to vary the first wavelength on a condition that an absolute value of a difference between a value of a target wavelength and a value of the third wavelength detected by the wavelength detector is equal to or less than a predetermined value, and control the second solid-state laser unit to vary the second wavelength on a condition that the absolute value exceeds the predetermined value.Type: GrantFiled: August 9, 2017Date of Patent: March 27, 2018Assignee: Gigaphoton Inc.Inventors: Takashi Onose, Osamu Wakabayashi
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Publication number: 20170338619Abstract: A solid-state laser system may include a first solid-state laser unit, a second solid-state laser unit, a wavelength conversion system, a wavelength detector, and a wavelength controller. The wavelength conversion system may receive a first pulsed laser light beam with a first wavelength and a second pulsed laser light beam with a second wavelength, and output a third pulsed laser light beam with a third wavelength converted from the first and second wavelengths. The wavelength controller may control the first solid-state laser unit to vary the first wavelength on a condition that an absolute value of a difference between a value of a target wavelength and a value of the third wavelength detected by the wavelength detector is equal to or less than a predetermined value, and control the second solid-state laser unit to vary the second wavelength on a condition that the absolute value exceeds the predetermined value.Type: ApplicationFiled: August 9, 2017Publication date: November 23, 2017Applicant: GIGAPHOTON INC.Inventors: Takashi ONOSE, Osamu WAKABAYASHI
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Patent number: 9812841Abstract: There is provided a laser system that may include a Raman cell, a pumping light generator, and a Raman cell laser unit. The pumping light generator may include one or more optical parametric amplifiers (OPAs), and may be configured to output first Raman-cell pumping light and second Raman-cell pumping light to the Raman cell. The Raman cell laser unit may be configured to output probing light as a target of wavelength conversion to the Raman cell.Type: GrantFiled: August 3, 2016Date of Patent: November 7, 2017Assignee: Gigaphoton Inc.Inventors: Takashi Onose, Kouji Kakizaki, Osamu Wakabayashi
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Patent number: 9791780Abstract: An exposure apparatus may include a laser light source capable of varying a wavelength of a laser beam that is emitted from the laser light source, a mask on which a pattern is formed, the pattern being configured to generate diffracted light by being irradiated with the laser beam, and a controller configured to control, in accordance with a distance between the mask and a substrate, the wavelength of the laser beam that is emitted from the laser light source, wherein the mask is irradiated with the laser beam emitted from the laser light source to perform proximity exposure on a surface of the substrate.Type: GrantFiled: December 30, 2015Date of Patent: October 17, 2017Assignee: Gigaphoton Inc.Inventors: Takashi Onose, Kouji Kakizaki, Osamu Wakabayashi, Akiyoshi Suzuki
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Publication number: 20170279241Abstract: A solid-state laser system may include first and second solid-state laser units, a wavelength conversion system, an optical shutter, and a controller. The first solid-state laser unit and the second solid-state laser unit may output first pulsed laser light with a first wavelength and second pulsed laser light with a second wavelength, respectively. The controller may perform first control and second control. The first control may cause the first and second pulsed laser light to enter the wavelength conversion system at a substantially coincidental timing, thereby causing the wavelength conversion system to output third pulsed laser light with a third wavelength converted from the first wavelength and the second wavelength, and the second control may prevent the first and second pulsed laser light from entering the wavelength conversion system at the coincidental timing, thereby preventing the wavelength conversion system from outputting the third pulsed laser light.Type: ApplicationFiled: June 7, 2017Publication date: September 28, 2017Applicant: GIGAPHOTON INC.Inventors: Takashi ONOSE, Osamu WAKABAYASHI
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Publication number: 20170244215Abstract: A titanium-sapphire laser apparatus may include a continuous wave oscillation laser unit, an amplification oscillator, a pulsed laser unit, an error detector, an error controller, and an optical path length corrector. The amplification oscillator may include an optical resonator and a titanium-sapphire crystal that is provided in an optical path in the optical resonator. The error detector may be provided in an optical path of leak light of seed light from the optical resonator, and may detect an optical path length error between an optical path length in the optical resonator and a positive integer multiple of a wavelength of the seed light and output an optical path length error signal. The optical path length corrector may vary the optical path length in the optical resonator on a basis of a signal resulting from adding a correction value to the optical path error signal.Type: ApplicationFiled: May 9, 2017Publication date: August 24, 2017Applicants: TOKYO UNIVERSITY OF SCIENCE FOUNDATION, GIGAPHOTON INC.Inventors: Shuntaro WATANABE, Tomoharu NAKAZATO, Takashi ONOSE