Patents by Inventor Nobuyoshi Toyohara
Nobuyoshi Toyohara 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: 20070109645Abstract: In an optical filter, a thin film is formed by laminating low refractive index layers alternatingly from a substrate side with high refractive index layers. The thin film is provided with first, second, and third laminated portions. In the first laminated portion, the refractive indices of the high refractive index layers become gradually higher. In the second laminated portion, the refractive indices of the high refractive index layers are substantially equal to the highest refractive index of the high refractive index layers constituting the first laminated portion. In the third laminated portion, the refractive indices of the high refractive index layers become gradually lower, and the refractive indices of the low refractive index layers are substantially equal to the lowest refractive index of the low refractive index layers constituting the second laminated portion.Type: ApplicationFiled: December 27, 2006Publication date: May 17, 2007Inventors: Yorio Wada, Ken Kawamata, Nobuyoshi Toyohara, Yoshiki Shinta
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Publication number: 20070109647Abstract: In an optical filter, a thin film is formed by laminating low refractive index layers alternatingly from a substrate side with high refractive index layers. The thin film is provided with first, second, and third laminated portions. In the first laminated portion, the refractive indices of the high refractive index layers become gradually higher. In the second laminated portion, the refractive indices of the high refractive index layers are substantially equal to the highest refractive index of the high refractive index layers constituting the first laminated portion. In the third laminated portion, the refractive indices of the high refractive index layers become gradually lower, and the refractive indices of the low refractive index layers are substantially equal to the lowest refractive index of the low refractive index layers constituting the second laminated portion.Type: ApplicationFiled: January 2, 2007Publication date: May 17, 2007Inventors: Yorio Wada, Ken Kawamata, Nobuyoshi Toyohara, Yoshiki Shinta
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Publication number: 20070109648Abstract: In an optical filter, a thin film is formed by laminating low refractive index layers alternatingly from a substrate side with high refractive index layers. The thin film is provided with first, second, and third laminated portions. In the first laminated portion, the refractive indices of the high refractive index layers become gradually higher. In the second laminated portion, the refractive indices of the high refractive index layers are substantially equal to the highest refractive index of the high refractive index layers constituting the first laminated portion. In the third laminated portion, the refractive indices of the high refractive index layers become gradually lower, and the refractive indices of the low refractive index layers are substantially equal to the lowest refractive index of the low refractive index layers constituting the second laminated portion.Type: ApplicationFiled: January 2, 2007Publication date: May 17, 2007Inventors: Yorio Wada, Ken Kawamata, Nobuyoshi Toyohara, Yoshiki Shinta
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Publication number: 20070103785Abstract: In an optical filter, a thin film is formed by laminating low refractive index layers alternatingly from a substrate side with high refractive index layers. The thin film is provided with first, second, and third laminated portions. In the first laminated portion, the refractive indices of the high refractive index layers become gradually higher. In the second laminated portion, the refractive indices of the high refractive index layers are substantially equal to the highest refractive index of the high refractive index layers constituting the first laminated portion. In the third laminated portion, the refractive indices of the high refractive index layers become gradually lower, and the refractive indices of the low refractive index layers are substantially equal to the lowest refractive index of the low refractive index layers constituting the second laminated portion.Type: ApplicationFiled: December 27, 2006Publication date: May 10, 2007Inventors: Yorio Wada, Ken Kawamata, Nobuyoshi Toyohara, Yoshiki Shinta
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Publication number: 20070103784Abstract: In an optical filter, a thin film is formed by laminating low refractive index layers alternatingly from a substrate side with high refractive index layers. The thin film is provided with first, second, and third laminated portions. In the first laminated portion, the refractive indices of the high refractive index layers become gradually higher. In the second laminated portion, the refractive indices of the high refractive index layers are substantially equal to the highest refractive index of the high refractive index layers constituting the first laminated portion. In the third laminated portion, the refractive indices of the high refractive index layers become gradually lower, and the refractive indices of the low refractive index layers are substantially equal to the lowest refractive index of the low refractive index layers constituting the second laminated portion.Type: ApplicationFiled: December 27, 2006Publication date: May 10, 2007Inventors: Yorio Wada, Ken Kawamata, Nobuyoshi Toyohara, Yoshiki Shinta
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Publication number: 20070095958Abstract: In an optical filter, a thin film is formed by laminating low refractive index layers alternatingly from a substrate side with high refractive index layers. The thin film is provided with first, second, and third laminated portions. In the first laminated portion, the refractive indices of the high refractive index layers become gradually higher. In the second laminated portion, the refractive indices of the high refractive index layers are substantially equal to the highest refractive index of the high refractive index layers constituting the first laminated portion. In the third laminated portion, the refractive indices of the high refractive index layers become gradually lower, and the refractive indices of the low refractive index layers are substantially equal to the lowest refractive index of the low refractive index layers constituting the second laminated portion.Type: ApplicationFiled: December 26, 2006Publication date: May 3, 2007Inventors: Yorio Wada, Ken Kawamata, Nobuyoshi Toyohara, Yoshiki Shinta
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Patent number: 7193780Abstract: In an optical filter, a thin film is formed by laminating low refractive index layers alternatingly from a substrate side with high refractive index layers. The thin film is provided with first, second, and third laminated portions. In the first laminated portion, the refractive indices of the high refractive index layers become gradually higher. In the second laminated portion, the refractive indices of the high refractive index layers are substantially equal to the highest refractive index of the high refractive index layers constituting the first laminated portion. In the third laminated portion, the refractive indices of the high refractive index layers become gradually lower, and the refractive indices of the low refractive index layers are substantially equal to the lowest refractive index of the low refractive index layers constituting the second laminated portion.Type: GrantFiled: August 13, 2004Date of Patent: March 20, 2007Assignee: Olympus CorporationInventors: Yorio Wada, Ken Kawamata, Nobuyoshi Toyohara, Yoshiki Shinta
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Publication number: 20060291061Abstract: An imaging apparatus comprises an optical system including a plurality of optical elements having finite refractive power and an electronic imaging device disposed at an image side of the optical system. At least one of the plurality of optical elements is made of resin, and an infrared-cut coating is applied to at least one face of the optical element that is made of resin.Type: ApplicationFiled: August 4, 2005Publication date: December 28, 2006Inventors: Noriyuki Iyama, Kazuyuki Hosokawa, Ken Kawamata, Nobuyoshi Toyohara, Joji Sakamoto
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Patent number: 7126751Abstract: A microscope includes an optical element provided with an anti-reflection film applied thereto. The anti-reflection film has the following layered structure: having first to sixth layers of films, in order from the surface of the optical element, formed of a high-refractive-index material for each of the first, third and fifth layers, a low-refractive-index material or a middle-refractive-index material for each of the second and fourth layers, and a low-refractive-index material for the sixth layer, with a range of the optical film-thickness nd of each layer in reference to the design wavelength ? being “(0.13˜0.35)×?/4” for the first layer, “(0.18˜0.75)×?/4” for the second layer, “(0.28˜2.31)×?/4” for the third layer, “(0.26˜0.92)×?/4” for the fourth layer, “(0.20˜0.37)×?/4” for the fifth layer, and “(1.09˜1.18)×?/4” for the sixth layer.Type: GrantFiled: May 12, 2006Date of Patent: October 24, 2006Assignee: Olympus CorporationInventors: Atsushi Yonetani, Kunihiko Uzawa, Ken Kawamata, Yorio Wada, Nobuyoshi Toyohara, Takeshi Deguchi
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Publication number: 20060203345Abstract: A microscope includes an optical element provided with an anti-reflection film applied thereto. The anti-reflection film has the following layered structure: having first to sixth layers of films, in order from the surface of the optical element, formed of a high-refractive-index material for each of the first, third and fifth layers, a low-refractive-index material or a middle-refractive-index material for each of the second and fourth layers, and a low-refractive-index material for the sixth layer, with a range of the optical film-thickness nd of each layer in reference to the design wavelength ? being “(0.13˜0.35)×?/4” for the first layer, “(0.18˜0.75)×?/4” for the second layer, “(0.28˜2.31)×?/4” for the third layer, “(0.26˜0.92)×60 /4” for the fourth layer, “(0.20˜0.37)×?/4” for the fifth layer, and “(1.09˜1.18)×?/4” for the sixth layer.Type: ApplicationFiled: May 12, 2006Publication date: September 14, 2006Inventors: Atsushi Yonetani, Kunihiko Uzawa, Ken Kawamata, Yorio Wada, Nobuyoshi Toyohara, Takeshi Deguchi
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Patent number: 7075714Abstract: A microscope includes an optical element provided with an anti-reflection film applied thereto. The anti-reflection film has the following layered structure: having first to sixth layers of films, in order from the surface of the optical element, formed of a high-refractive-index material for each of the first, third and fifth layers, a low-refractive-index material or a middle-refractive-index material for each of the second and fourth layers, and a low-refractive-index material for the sixth layer, with a range of the optical film-thickness nd of each layer in reference to the design wavelength ? being “(0.13˜0.35)×?/4” for the first layer, “(0.18˜0.75)×?/4” for the second layer, “(0.28˜2.31)×?/4” for the third layer, “(0.26˜0.92)×?/4” for the fourth layer, “(0.20˜0.37)×?/4” for the fifth layer, and “(1.09˜1.18)×?/4” for the sixth layer.Type: GrantFiled: September 2, 2004Date of Patent: July 11, 2006Assignee: Olympus CorporationInventors: Atsushi Yonetani, Kunihiko Uzawa, Ken Kawamata, Yorio Wada, Nobuyoshi Toyohara, Takeshi Deguchi
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Patent number: 7050224Abstract: A fluorescence observing apparatus has an excitation filter unit for transmitting only exciting light with particular wavelengths, of illuminating light, and an absorption filter unit for transmitting only fluorescent light produced from a specimen by irradiating the specimen with the exciting light to block the exciting light. In this case, the space between the half-value wavelength on the long-wavelength side of the excitation filter unit and the half-value wavelength on the short-wavelength side of the absorption filter unit is in the range of 6–12 nm, and variations in the half-value wavelengths of the excitation filter unit and the absorption filter unit where humidity is changed from 10% to 95% are within 0.5 nm. Whereby, faint fluorescent light is efficiently taken out and the observation can be made.Type: GrantFiled: November 7, 2003Date of Patent: May 23, 2006Assignee: Olympus CorporationInventors: Ken Kawamata, Yorio Wada, Nobuyoshi Toyohara, Takeshi Deguchi, Kunihiko Uzawa, Joji Sakamoto
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Publication number: 20060017913Abstract: An apparatus for fluorescence observation includes an excitation filter which transmits only exciting light of an specific wavelength among illumination light, and an absorption filter which blocks the exciting light and transmits only fluorescence generated from a specimen when the exciting light is irradiated to the specimen. Here, an interval of a half-value wavelength at a long-wavelength side of the excitation filter and a half-value wavelength at a short-wavelength side of the absorption filter is in a width between 1 nm to 6 nm, and change of the half-value wavelength of the excitation filter and the absorption filter when humidity changes from 10% to 95%, is 0.5 nm or less.Type: ApplicationFiled: May 19, 2004Publication date: January 26, 2006Applicant: OLYMPUS CORPORATIONInventors: Ken Kawamata, Nobuyoshi Toyohara
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Patent number: 6961183Abstract: An optical filter is provided with a thin film having: a first laminated portion that is constructed by alternately laminating low refractive index layers that have a relatively low refractive index with high refractive index layers that have a relatively high refractive index, and in which the refractive index of the high refractive index layers gradually increases from the substrate side; a second laminated portion in which the refractive indices of the high refractive index layers are equal to or higher than the highest refractive index from among the high refractive index layers constituting the first laminated portion; and a third laminated portion in which the refractive indices of the high refractive index layers gradually decrease from the second laminated portion side.Type: GrantFiled: March 24, 2004Date of Patent: November 1, 2005Assignee: Olympus CorporationInventors: Yorio Wada, Ken Kawamata, Nobuyoshi Toyohara
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Publication number: 20050122576Abstract: A microscope includes an optical element provided with an anti-reflection film applied thereto. The anti-reflection film has the following layered structure: having first to sixth layers of films, in order from the surface of the optical element, formed of a high-refractive-index material for each of the first, third and fifth layers, a low-refractive-index material or a middle-refractive-index material for each of the second and fourth layers, and a low-refractive-index material for the sixth layer, with a range of the optical film-thickness nd of each layer in reference to the design wavelength ? being “(0.13˜0.35)×?/4” for the first layer, “(0.18˜0.75)×?/4” for the second layer, “(0.28˜2.31)×?/4” for the third layer, “(0.26˜0.92)×?/4” for the fourth layer, “(0.20˜0.37)×?/4” for the fifth layer, and “(1.09˜1.18)×?/4” for the sixth layer.Type: ApplicationFiled: September 2, 2004Publication date: June 9, 2005Inventors: Atsushi Yonetani, Kunihiko Uzawa, Ken Kawamata, Yorio Wada, Nobuyoshi Toyohara, Takeshi Deguchi
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Publication number: 20050099677Abstract: A fluorescence observing apparatus has an excitation filter unit for transmitting only exciting light with particular wavelengths, of illuminating light, and an absorption filter unit for transmitting only fluorescent light produced from a specimen by irradiating the specimen with the exciting light to block the exciting light. In this case, the space between the half-value wavelength on the long-wavelength side of the excitation filter unit and the half-value wavelength on the short-wavelength side of the absorption filter unit is in the range of 6-12 nm, and variations in the half-value wavelengths of the excitation filter unit and the absorption filter unit where humidity is changed from 10% to 95% are within 0.5 nm. Whereby, faint fluorescent light is efficiently taken out and the observation can be made.Type: ApplicationFiled: November 7, 2003Publication date: May 12, 2005Inventors: Ken Kawamata, Yorio Wada, Nobuyoshi Toyohara, Takeshi Deguchi, Kunihiko Uzawa, Joji Sakamoto
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Publication number: 20050041293Abstract: In an optical filter, a thin film is formed by laminating low refractive index layers alternatingly from a substrate side with high refractive index layers. The thin film is provided with first, second, and third laminated portions. In the first laminated portion, the refractive indices of the high refractive index layers become gradually higher. In the second laminated portion, the refractive indices of the high refractive index layers are substantially equal to the highest refractive index of the high refractive index layers constituting the first laminated portion. In the third laminated portion, the refractive indices of the high refractive index layers become gradually lower, and the refractive indices of the low refractive index layers are substantially equal to the lowest refractive index of the low refractive index layers constituting the second laminated portion.Type: ApplicationFiled: August 13, 2004Publication date: February 24, 2005Inventors: Yorio Wada, Ken Kawamata, Nobuyoshi Toyohara, Yoshiki Shinta
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Publication number: 20050012999Abstract: An optical filter is provided with a thin film having: a first laminated portion that is constructed by alternately laminating low refractive index layers that have a relatively low refractive index with high refractive index layers that have a relatively high refractive index, and in which the refractive index of the high refractive index layers gradually increases from the substrate side; a second laminated portion in which the refractive indices of the high refractive index layers are equal to or higher than the highest refractive index from among the high refractive index layers constituting the first laminated portion; and a third laminated portion in which the refractive indices of the high refractive index layers gradually decrease from the second laminated portion side.Type: ApplicationFiled: March 24, 2004Publication date: January 20, 2005Inventors: Yorio Wada, Ken Kawamata, Nobuyoshi Toyohara