Patents by Inventor Yuki TAKEMURA
Yuki TAKEMURA 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: 20240410843Abstract: A light receiving device receives fluorescence emitted by a magnetic resonance member in response to excitation light and generates a fluorescence sensor signal corresponding to a fluorescence intensity. A CMR arithmetic part performs common mode rejection with respect to the fluorescence sensor signal based on a reference light sensor signal of reference light that is obtained by branching the excitation light in consideration of nonlinearity of a level of the fluorescence sensor signal corresponding to an amount of the excitation light and generates a CMR signal. An A/D converter digitizes the CMR signal. An analog/digital converter digitizes the reference light sensor signal. An arithmetic processing device derives a measurement value of a measured field based on the digitized CMR signal and the digitized reference light sensor signal.Type: ApplicationFiled: September 20, 2022Publication date: December 12, 2024Inventors: Yoshiharu YOSHII, Norikazu MIZUOCHI, Yuki TAKEMURA
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Patent number: 12140648Abstract: A magnetic resonance member 1 includes a diamond crystal including plural diamond nitrogen vacancy center, and a high-frequency magnetic field generator 2 applies magnetic field of microwave to the magnetic resonance member 1. The aforementioned plural diamond nitrogen vacancy centers include diamond nitrogen vacancy centers arranged in directions of predetermined plural axes among four axes that indicates four connection directions of carbon atoms in the diamond crystal; and the aforementioned magnetic resonance member 1 is arranged in a direction that provides a substantially largest sensitivity of the measurement target magnetic field in the diamond nitrogen vacancy centers arranged in the predetermined plural axes.Type: GrantFiled: April 15, 2021Date of Patent: November 12, 2024Assignee: Kyocera Document Solutions, Inc.Inventors: Yoshiharu Yoshii, Tsutomu Otsuka, Masateru Hashimoto, Norikazu Mizuochi, Kan Hayashi, Yuki Takemura
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Patent number: 12066392Abstract: A substrate 1 includes a color center excited by excitation light, and at least a pair of reflection members 21a, 21b are arranged with gaps from the substrate 1. The substrate 1 causes the excitation light entering the substrate 1 to exit through its surfaces without reflection, and the reflection members 21a, 21b cause the exited excitation light to reflect at the reflection surface 21-1 or 21-2 and enter the substrate 1, and cause the excitation light to repeatedly enter and exit the substrate 1 and thereby pass through the substrate 1 only a predetermined number of times. Here, the irradiating device 4 emits the excitation light such that the excitation light is incident to the reflection surface 21-1 or 21-2 with an angle perpendicular to one axis among two axes of the reflection surface 21-1 or 21-2 and with a predetermined slant angle from the other axis.Type: GrantFiled: April 19, 2021Date of Patent: August 20, 2024Assignees: SUMIDA CORPORATION, Kyoto UniversityInventors: Masateru Hashimoto, Yoshiharu Yoshii, Yuki Takemura, Norikazu Mizuochi
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Publication number: 20240255588Abstract: A high-frequency magnetic field generator 2 applies microwave to a magnetic resonance member 1 capable of an electron spin quantum operation using the microwave. A magnet 3 applies a static magnetic field to the magnetic resonance member 1. An irradiating device 12 irradiates the magnetic resonance member 1 with light of a specific wavelength. A flux transformer 4 senses a measurement target magnetic field using a primary coil 4a and applies an application magnetic field corresponding to the sensed measurement target magnetic field to the magnetic resonance member 1 using a secondary coil 4b. Further, the magnetic resonance member 1 is arranged at a position in a hollow part of the secondary coil 4b of the flux transformer 4 and in a hollow part of the magnet 3.Type: ApplicationFiled: March 8, 2022Publication date: August 1, 2024Inventors: Shingo HAMADA, Tsutomu OTSUKA, Yoshiharu YOSHII, Norikazu MIZUOCHI, Yuki TAKEMURA
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Publication number: 20240255594Abstract: A high-frequency magnetic field generator 2 applies microwave to a magnetic resonance member 1. A magnet 3 applies a static magnetic field to the magnetic resonance member 1. An irradiating device 12 irradiates the magnetic resonance member 1 with incident light of a specific wavelength. An FT 4 senses a measurement target magnetic field using a primary coil 4a and applies an application magnetic field corresponding to the sensed measurement target magnetic field to the magnetic resonance member 1 using a secondary coil 4b. A pillar-shaped light guide member 41 guides the incident light to the magnetic resonance member 1, and a pillar-shaped light guide member 42 guides fluorescence that the magnetic resonance member 1 emits from the magnetic resonance member 1.Type: ApplicationFiled: June 7, 2022Publication date: August 1, 2024Inventors: Yoshiharu YOSHII, Tsutomu OOTSUKA, Shingo HAMADA, Norikazu MIZUOCHI, Yuki TAKEMURA
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Patent number: 11933865Abstract: A magnetic resonance member 1 includes a crystal structure and is capable of electron spin quantum operations with microwaves of different frequencies corresponding to arrangement orientations of a vacancy and an impurity in a crystal lattice. A magnetic field transmission unit 4 senses a measurement target magnetic field at plural measurement positions different from each other, and applies application magnetic fields corresponding to the measurement target magnetic field sensed at the plural measurement positions to the magnetic resonance member 1 along respective different directions corresponding to the aforementioned arrangement orientations. A measurement control unit 21 controls a high frequency power supply 12, and determines detection values detected by a detecting device (an irradiating device 5 and a light receiving device 6) of the physical phenomena corresponding to the plural measurement positions.Type: GrantFiled: February 18, 2021Date of Patent: March 19, 2024Assignees: SUMIDA CORPORATION, Kyoto UniversityInventors: Yoshiharu Yoshii, Masateru Hashimoto, Tsutomu Ootsuka, Shingo Hamada, Yuki Takemura, Kan Hayashi, Norikazu Mizuochi
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Patent number: 11747414Abstract: A measurement device includes a microwave generator, an electron spin resonance member, and an observation system. The microwave generator is configured to generate a microwave. The microwave is configured for an electron spin quantum operation based on a Rabi oscillation. The microwave generator has a coil configured to emit the microwave and an electrostatic capacitor electrically connected in parallel to the coil. The microwave is irradiated to the electron spin resonance member. The observation system is configured to measure a physical quantity in a measured field in response to a state of the electron spin resonance member when the electron spin resonance member is irradiated by the microwave. The coil has first and second ends from which first and second legs continuously extended. The electrostatic capacitor spans the first and second legs and is electrically connected in parallel to the coil.Type: GrantFiled: December 7, 2021Date of Patent: September 5, 2023Inventors: Yuki Takemura, Yoshiharu Yoshii, Masaki Saito
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Publication number: 20230194448Abstract: A substrate 1 includes a color center excited by excitation light, and at least a pair of reflection members 21a, 21b are arranged with gaps from the substrate 1. The substrate 1 causes the excitation light entering the substrate 1 to exit through its surfaces without reflection, and the reflection members 21a, 21b cause the exited excitation light to reflect at the reflection surface 21-1 or 21-2 and enter the substrate 1, and cause the excitation light to repeatedly enter and exit the substrate 1 and thereby pass through the substrate 1 only a predetermined number of times. Here, the irradiating device 4 emits the excitation light such that the excitation light is incident to the reflection surface 21-1 or 21-2 with an angle perpendicular to one axis among two axes of the reflection surface 21-1 or 21-2 and with a predetermined slant angle from the other axis.Type: ApplicationFiled: April 19, 2021Publication date: June 22, 2023Inventors: Masateru HASHIMOTO, Yoshiharu YOSHII, Yuki TAKEMURA, Norikazu MIZUOCHI
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Publication number: 20230184853Abstract: A magnetic resonance member 1 includes a diamond crystal including plural diamond nitrogen vacancy center, and a high-frequency magnetic field generator 2 applies magnetic field of microwave to the magnetic resonance member 1. The aforementioned plural diamond nitrogen vacancy centers include diamond nitrogen vacancy centers arranged in directions of predetermined plural axes among four axes that indicates four connection directions of carbon atoms in the diamond crystal; and the aforementioned magnetic resonance member 1 is arranged in a direction that provides a substantially largest sensitivity of the measurement target magnetic field in the diamond nitrogen vacancy centers arranged in the predetermined plural axes.Type: ApplicationFiled: April 15, 2021Publication date: June 15, 2023Inventors: Yoshiharu YOSHII, Tsutomu OOTSUKA, Masateru HASHIMOTO, Norikazu MIZUOCHI, Kan HAYASHI, Yuki TAKEMURA
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Publication number: 20230051777Abstract: A magnetic resonance member 1 includes a crystal structure and is capable of electron spin quantum operations with microwaves of different frequencies corresponding to arrangement orientations of a vacancy and an impurity in a crystal lattice. A magnetic field transmission unit 4 senses a measurement target magnetic field at plural measurement positions different from each other, and applies application magnetic fields corresponding to the measurement target magnetic field sensed at the plural measurement positions to the magnetic resonance member 1 along respective different directions corresponding to the aforementioned arrangement orientations. A measurement control unit 21 controls a high frequency power supply 12, and determines detection values detected by a detecting device (an irradiating device 5 and a light receiving device 6) of the physical phenomena corresponding to the plural measurement positions.Type: ApplicationFiled: February 18, 2021Publication date: February 16, 2023Inventors: Yoshiharu YOSHII, Masateru HASHIMOTO, Tsutomu OOTSUKA, Shingo HAMADA, Yuki TAKEMURA, Kan HAYASHI, Norikazu MIZUOCHI
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Publication number: 20220091201Abstract: A measurement device includes a microwave generator, an electron spin resonance member, and an observation system. The microwave generator is configured to generate a microwave. The microwave is configured for an electron spin quantum operation based on a Rabi oscillation. The microwave generator has a coil configured to emit the microwave and an electrostatic capacitance member electrically connected in parallel to the coil. The microwave is irradiated to the electron spin resonance member. The observation system is configured to measure a physical quantity in a measured field in response to a state of the electron spin resonance member when the electron spin resonance member is irradiated by the microwave. The electrostatic capacitance member is directly connected to the coil or is arranged between the coil and an electric element that is electrically connected to the coil.Type: ApplicationFiled: December 7, 2021Publication date: March 24, 2022Inventors: Yuki TAKEMURA, Yoshiharu YOSHII, Masaki SAITO
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Patent number: 11221381Abstract: A measurement device includes a microwave generator, an electron spin resonance member, and an observation system. The microwave generator is configured to generate a microwave. The microwave is configured for an electron spin quantum operation based on a Rabi oscillation. The microwave generator has a coil configured to emit the microwave and an electrostatic capacitance member electrically connected in parallel to the coil. The microwave is irradiated to the electron spin resonance member. The observation system is configured to measure a physical quantity in a measured field in response to a state of the electron spin resonance member when the electron spin resonance member is irradiated by the microwave. The electrostatic capacitance member is directly connected to the coil or is arranged between the coil and an electric element that is electrically connected to the coil.Type: GrantFiled: February 6, 2020Date of Patent: January 11, 2022Inventors: Yuki Takemura, Yoshiharu Yoshii, Masaki Saito
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Publication number: 20200271735Abstract: A measurement device includes a microwave generator, an electron spin resonance member, and an observation system. The microwave generator is configured to generate a microwave. The microwave is configured for an electron spin quantum operation based on a Rabi oscillation. The microwave generator has a coil configured to emit the microwave and an electrostatic capacitance member electrically connected in parallel to the coil. The microwave is irradiated to the electron spin resonance member. The observation system is configured to measure a physical quantity in a measured field in response to a state of the electron spin resonance member when the electron spin resonance member is irradiated by the microwave. The electrostatic capacitance member is directly connected to the coil or is arranged between the coil and an electric element that is electrically connected to the coil.Type: ApplicationFiled: February 6, 2020Publication date: August 27, 2020Inventors: Yuki TAKEMURA, Yoshiharu YOSHII, Masaki SAITO