Patents by Inventor Yu Kitahara
Yu Kitahara 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: 20080019012Abstract: A laser beam output from a semiconductor laser light source 1 is transmitted through a cover glass 2 in the optical axis Z direction, is incident on a molded lens 4 in a state of divergent rays, is converted into convergent rays by the molded lens 4, and is applied onto a recording face 5 of the optical recording medium. A diaphragm 3 is arranged. An area of each lens surface onto which a luminous flux of the laser beam restricted by the diaphragm 3 is applied corresponds to an effective area. The following expression (1) is satisfied: d1?d0?0.04 mm ??(1) where d0 denotes an effective aperture of one of the lens surfaces, and d1 denotes an outer diameter of the one of the lens surfaces.Type: ApplicationFiled: July 19, 2007Publication date: January 24, 2008Inventors: Toshiaki Katsuma, Masao Mori, Yu Kitahara, Tetsuya Ori
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Patent number: 7298687Abstract: An optical recording media objective lens is disclosed for converging either of two working lights of a first wavelength or a second wavelength. The working light of the first wavelength is converged at a first numerical aperture onto the first optical recording medium and the working light of the second wavelength is converged at a second numerical aperture onto the second optical recording medium. An aperture adjusting zonal part is included on at least one of the objective lens surfaces for apparently eliminating light at the periphery of a light flux having a wavelength ?1 while maintaining light at the periphery of a light flux having a wavelength ?2, where ?1 is one of the first and second wavelengths and ?2 is the other wavelength. The aperture adjusting zonal part is formed so as to satisfy two conditions.Type: GrantFiled: June 24, 2004Date of Patent: November 20, 2007Assignee: Fujinon CorporationInventors: Yu Kitahara, Toshiaki Katsuma, Tetsuya Ori
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Patent number: 7286463Abstract: An objective lens is formed as an objective lens element with a diffractive surface on one side. The objective lens focuses a collimated light beam of a first wavelength diffracted by the objective lens onto a first recording medium, a collimated light beam of a second wavelength diffracted by the objective lens onto a second recording medium, and a diverging light beam of a third wavelength diffracted by the objective lens onto a third recording medium. The three light beams are focused at three different working distances from the objective lens and the diffraction orders of the diffracted light of two of the light beams is the same. The objective lens satisfies certain conditions related to the shortest of the three different working distances, the focal length of the objective lens element at the shortest of the three wavelengths, and the thickness of the objective lens.Type: GrantFiled: November 16, 2004Date of Patent: October 23, 2007Assignee: Fujinon CorporationInventors: Yu Kitahara, Toshiaki Katsuma, Masao Mori, Tetsuya Ori
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Patent number: 7266070Abstract: An objective lens and an optical pickup device utilizing it are disclosed wherein the objective lens includes a specified aspheric surface profile having a discontinuity and a single specified diffraction optical surface so to provide a focusing effect which is usable with different optical recording media, such as a CD versus a DVD. By providing a single diffraction surface and an aspheric surface having a discontinuity, more freedom of design is achieved for the diffraction surface than would otherwise be possible. The objective lens according to the invention is designed so as to be both compact and inexpensive and enables recording/playback onto either type optical recording media using different wavelengths and different numerical apertures, depending on the recording medium used.Type: GrantFiled: March 25, 2004Date of Patent: September 4, 2007Assignee: Fujinon CorporationInventors: Yu Kitahara, Tetsuya Ori, Toshiaki Katsuma
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Patent number: 7220064Abstract: A coupling optical system for coupling light into an optical fiber of an optical communications system includes a liquid that includes a dispersion of microscopic particles and two transparent media that hold the liquid between them along an optical axis. The refractive power of the liquid is variable according to the electromagnetic field applied to the liquid to vary the migration of the microscopic particles of the dispersion within the liquid. The position of a light collecting point of the coupling optical system is adjustable based on the variation in the refractive power of the liquid so that light can be efficiently coupled into optical fibers at different distances along the optical axis from the coupling optical system. At the light collecting point, the end surface of an optical fiber collects light from a light source or another optical fiber. One or more collimator lenses may help converge the light.Type: GrantFiled: May 9, 2006Date of Patent: May 22, 2007Assignee: Fujinon CorporationInventors: Masao Mori, Yu Kitahara, Makoto Oomura, Yoko Yamamoto, Toshiaki Katsuma
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Publication number: 20070025204Abstract: An objective optical system for optical recording media and an optical pickup device using the objective optical system includes a holographic optical element that includes angularly-multiplexed holograms for correcting spherical aberration and/or coma aberration due to variations in substrate thicknesses of recording media and errors by tilting the holographic optical element out of the plane perpendicular to the optical axis by specified amounts. A control system determines the spherical aberration and/or coma using a control unit and outputs command signals for controlling the amount of tilt. The angularly-multiplexed holograms may change an input substantially collimated light beam to a divergent or convergent light beam except when the substrate of the optical recording media has a specified thickness. Additionally, the holographic optical element may include wavelength-multiplexed holograms to correct for chromatic aberration due to mode hopping of a semiconductor laser light source.Type: ApplicationFiled: July 25, 2006Publication date: February 1, 2007Inventors: Masao Mori, Toshiaki Katsuma, Tetsuya Ori, Yu Kitahara
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Publication number: 20060262427Abstract: A coupling optical system for coupling light into an optical fiber of an optical communications system includes a liquid that includes a dispersion of microscopic particles and two transparent media that hold the liquid between them along an optical axis. The refractive power of the liquid is variable according to the electromagnetic field applied to the liquid to vary the migration of the microscopic particles of the dispersion within the liquid. The position of a light collecting point of the coupling optical system is adjustable based on the variation in the refractive power of the liquid so that light can be efficiently coupled into optical fibers at different distances along the optical axis from the coupling optical system. At the light collecting point, the end surface of an optical fiber collects light from a light source or another optical fiber. One or more collimator lenses may help converge the light.Type: ApplicationFiled: May 9, 2006Publication date: November 23, 2006Inventors: Masao Mori, Yu Kitahara, Makoto Oomura, Yoko Yamamoto, Toshiaki Katsuma
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Publication number: 20060256454Abstract: A lens is equipped with a reference mounting surface that is abutted to a surface of a lens support member at the time of mounting the lens, wherein the reference mounting surface is arranged between a plane which is normal to the optical axis of the lens and includes a principal point on the incident light side of the lens and a plane which is normal to the optical axis of the lens and includes a principal point on the outgoing light side of the lens.Type: ApplicationFiled: May 9, 2006Publication date: November 16, 2006Inventors: Toshiaki Katsuma, Masao Mori, Yu Kitahara, Makoto Oomura, Yoko Yamamoto
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Publication number: 20060109773Abstract: An objective optical system for focusing light from a light source onto optical recording media includes an objective lens formed of, arranged in order from the light source side along an optical axis, a plastic lens element having a diffractive surface on its light source side and a glass lens element having positive refractive power and an aspheric surface. The lens elements are joined to form a lens component. The objective optical system focuses incident light of three different wavelengths with two or three different numerical apertures onto three different optical recording media. Three conditions are satisfied so as to achieve optimum focusing onto three different recording media, such as a CD, a DVD, and a BD or an AOD.Type: ApplicationFiled: November 17, 2005Publication date: May 25, 2006Inventors: Toshiaki Katsuma, Yu Kitahara, Masao Mori, Tetsuya Ori
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Publication number: 20060098555Abstract: An objective optical system focuses light from a light source onto at least two different types of optical recording media having different substrate thicknesses in order to record or reproduce information on the optical recording media by using a variable refractive power element and an objective lens. The variable refractive power element may be a liquid crystal element with concentric zones that serves as a transparent plate having no convergence effect when no voltage is applied when selecting an AOD, DVD, or CD and as a converging lens when a voltage is applied when selecting a BD. Alternately, the variable refractive power element may electrically vary the refractive index of a nanoparticle dispersion or at least one liquid of a two-liquid lens element. A diffractive optical element may be used to assist in focusing light to four recording media. An optical pickup device includes the objective optical system.Type: ApplicationFiled: November 7, 2005Publication date: May 11, 2006Inventors: Toshiaki Katsuma, Yu Kitahara, Masao Mori, Tetsuya Ori
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Publication number: 20060077861Abstract: An objective optical system focuses light from a light source onto at least two different types of optical recording media having different substrate thicknesses in order to record or reproduce information onto the optical recording media by using a different light convergence or divergence effect based on a difference in the vibrational direction of the polarization of polarized incident light. This difference may be caused by passing the light through a uniaxial crystal, such as crystallized quartz, that has its optic axis arranged to use an extraordinary ray and an ordinary ray that are subject to different refractive indexes in an objective optical system even though the rays have the same wavelength. Diffractive optics may also be used to enable excellent focusing on more than two recording media. An optical pickup optical system and an optical pickup device using this optical pickup optical system include the objective optical system.Type: ApplicationFiled: October 6, 2005Publication date: April 13, 2006Inventors: Toshiaki Katsuma, Yu Kitahara, Masao Mori, Tetsuya Ori
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Publication number: 20060077794Abstract: An objective optical system for focusing light from a light source onto at least two different types of optical recording media having different substrate thicknesses in order to record or reproduce information on the optical recording media includes at least two lens groups arranged along an optical axis for focusing light of each one of two wavelengths that are the same or very nearly the same from the light source on a different one of the at least two different types of optical recording media, such as an AOD and a BD, having different substrate thicknesses. The separations of the two lens groups are different when light of each wavelength is used, and four different types of optical recording media with different substrate thicknesses may be used. An optical pickup device includes the objective optical system, the recording media, and a light source supplying the light of the two wavelengths.Type: ApplicationFiled: September 22, 2005Publication date: April 13, 2006Inventors: Toshiaki Katsuma, Yu Kitahara, Masao Mori, Tetsuya Ori
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Publication number: 20060077795Abstract: An objective optical system for focusing light from a light source onto optical recording media includes an aperture control filter with a diffractive optical function formed as a glass plate with an aperture control structure on one side and a diffractive optical structure, such as a plastic diffractive optical element adhered to the glass plate on the other side, and an objective lens. The objective optical system focuses three light beams of three different wavelengths at three different numerical apertures onto desired positions of three different recording media with substrates of different thicknesses, such as a BD (or an AOD), a DVD, and a CD, that introduce different amounts of spherical aberration in the focused beams. The objective optical system provides compensating spherical aberration to the three light beams while keeping constant the distance between the aperture control filter with a diffractive optical function and the objective lens.Type: ApplicationFiled: August 30, 2005Publication date: April 13, 2006Inventors: Yu Kitahara, Toshiaki Katsuma, Masao Mori, Tetsuya Ori
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Publication number: 20050259554Abstract: An objective optical system is formed of a diffractive optical element with a diffractive surface formed on a planar ‘virtual surface’ (i.e., a surface that would be planar but for the diffractive structure) and an objective lens for focusing three collimated light beams of three different wavelengths at three different numerical apertures onto desired positions of three different recording media with substrates of different thicknesses, such as an AOD, a DVD, and a CD, that introduce different amounts of spherical aberration in the focused beams. The objective optical system provides compensating spherical aberration to the three light beams while keeping equal the distance between the diffractive optical element and the objective lens, and focuses second-order diffracted light of one wavelength and first-order diffracted light of the other two wavelengths. An optical pickup device includes the objective optical system, the recording media, and a light source supplying the three light beams.Type: ApplicationFiled: May 13, 2005Publication date: November 24, 2005Inventors: Toshiaki Katsuma, Masao Mori, Tetsuya Ori, Yu Kitahara
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Publication number: 20050141392Abstract: An objective optical system includes a diffractive optical element on the light source side of an objective lens for focusing incident light of three different wavelengths with two different numerical apertures onto three different optical recording media. The diffractive optical element is formed of two lens elements made of different materials that are cemented together at a diffractive surface. Three conditions are satisfied so as to achieve optimum imaging. The diffractive surface may be shaped so that the order of the diffracted light of the shortest wavelength ?2 having the largest diffracted intensity is different from the order of the diffracted light of the second wavelength ?2 having the largest diffracted intensity, and the order of the diffracted light of the first wavelength ?1 having the largest diffracted intensity is also different from the order of the diffracted light of the third wavelength ?3 having the largest diffracted intensity.Type: ApplicationFiled: December 23, 2004Publication date: June 30, 2005Inventors: Yu Kitahara, Tetsuya Ori, Toshiaki Katsuma, Masao Mori, Hiromitsu Yamakawa
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Publication number: 20050117496Abstract: An objective optical system is formed of a diffractive optical element with a diffractive surface formed on a virtual plane and an objective lens for focusing three collimated light beams of three different wavelengths at three different numerical apertures onto desired positions of three different recording media with substrates that include different thicknesses, such as an AOD, a DVD, and a CD, that introduce different amounts of spherical aberration in the focused beams. The objective optical system provides compensating spherical aberration to the three light beams by varying the distance between the diffractive optical element and the objective lens with the recording medium being used. The objective optical system focuses second-order diffracted light of one wavelength and first-order diffracted light of the other two wavelengths. An optical pickup device includes the objective optical system, the recording media, and a light source that provides the three light beams.Type: ApplicationFiled: October 26, 2004Publication date: June 2, 2005Inventors: Tetsuya Ori, Yu Kitahara, Masao Mori, Toshiaki Katsuma
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Publication number: 20050105448Abstract: An objective lens is formed as an objective lens element with a diffractive surface on one side. The objective lens focuses a collimated light beam of a first wavelength diffracted by the objective lens onto a first recording medium, a collimated light beam of a second wavelength diffracted by the objective lens onto a second recording medium, and a diverging light beam of a third wavelength diffracted by the objective lens onto a third recording medium. The three light beams are focused at three different working distances from the objective lens and the diffraction orders of the diffracted light of two of the light beams is the same. The objective lens satisfies certain conditions related to the shortest of the three different working distances, the focal length of the objective lens element at the shortest of the three wavelengths, and the thickness of the objective lens.Type: ApplicationFiled: November 16, 2004Publication date: May 19, 2005Inventors: Yu Kitahara, Toshiaki Katsuma, Masao Mori, Tetsuya Ori
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Publication number: 20050063283Abstract: An objective optical system is formed of a diffractive optical element with a diffractive surface formed on a virtual plane and an objective lens for focusing three light beams of three different wavelengths at three different numerical apertures onto desired positions of three different recording media with substrates that include different thicknesses, such as an AOD, a DVD, and a CD, that introduce different amounts of spherical aberration in the focused beams. The objective optical system provides compensating spherical aberrations to the three light beams, two of which are incident on the objective optical system as collimated beams and one of which is incident as a diverging beam. The objective optical system focuses second-order diffracted light of one wavelength and first-order diffracted light of the other two wavelengths. An optical pickup device includes the objective optical system, the recording media, and a light source that provides the three light beams.Type: ApplicationFiled: September 9, 2004Publication date: March 24, 2005Inventors: Tetsuya Ori, Toshiaki Katsuma, Masao Mori, Yu Kitahara
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Publication number: 20050041560Abstract: An objective lens consists of two lens elements of different materials that are cemented. The lens surfaces that are cemented includes a phase function so that the cemented surface forms a optical diffractive surface that enables the objective lens to focus incident light of three different wavelengths with different numerical apertures onto different optical recording media. Three conditions are satisfied so as to achieve optimum imaging. The optical diffractive surface may be shaped so that the order of the diffracted light of the shortest wavelength ?1 having the largest diffracted intensity is different from the order of the diffracted light of the second wavelength ?2 having the largest diffracted intensity, and the order of the diffracted light of the first wavelength ?1 having the largest diffracted intensity is also different from the order of the diffracted light of the third wavelength ?3 having the largest diffracted intensity.Type: ApplicationFiled: August 23, 2004Publication date: February 24, 2005Inventors: Toshiaki Katsuma, Yu Kitahara, Tetsuya Ori, Masao Mori
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Publication number: 20040264353Abstract: An optical recording media objective lens is disclosed for converging either of two working lights of a first wavelength or a second wavelength. The working light of the first wavelength is converged at a first numerical aperture onto the first optical recording medium and the working light of the second wavelength is converged at a second numerical aperture onto the second optical recording medium. An aperture adjusting zonal part is included on at least one of the objective lens surfaces for apparently eliminating light at the periphery of a light flux having a wavelength &lgr;1 while maintaining light at the periphery of a light flux having a wavelength &lgr;2, where &lgr;1 is one of the first and second wavelengths and &lgr;2 is the other wavelength. The aperture adjusting zonal part is formed so as to satisfy two conditions.Type: ApplicationFiled: June 24, 2004Publication date: December 30, 2004Inventors: Yu Kitahara, Toshiaki Katsuma, Tetsuya Ori