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    • 1. 发明申请
    • INFORMATION RECORDING MEDIUM, OPTICAL INFORMATION RECORDING AND REPRODUCING APPARATUS, OPTICAL INFORMATION RECORDING AND REPRODUCING METHOD AND MANUFACTURING METHOD OF INFORMATION RECORDING MEDIUM
    • 信息记录介质,光信息记录和再现装置,光信息记录和再现方法以及信息记录介质的制造方法
    • US20120113772A1
    • 2012-05-10
    • US13384891
    • 2010-07-20
    • Teruhiro ShionoNoboru Yamada
    • Teruhiro ShionoNoboru Yamada
    • G11B13/04G11B7/1374B05D5/06G11B7/26
    • G11B7/252G11B7/1378G11B7/24038G11B7/24085G11B7/26G11B2007/0013G11B2007/13727
    • To provide an information recording medium which is capable of reducing damage to a recording layer while improving environmental resistance of the recording layer and which enables information to be recorded or reproduced at a high density and a high sensitivity, an optical information recording and reproducing apparatus, an optical information recording and reproducing method, and a manufacturing method of an information recording medium. An information recording medium (24) includes: a substrate (1); first to mth (where m is an integer equal to or greater than 1) recording layers (2) respectively provided on an incident side of recording light or reproducing light with respect to the substrate (1) in order of distance closer to the incident side; and first to mth (where m is an integer equal to or greater than 1) negative refractive index layers (3) respectively provided on the incident side of the recording light or the reproducing light with respect to the mth recording layer (2) in order of distance closer to the incident side, wherein an ith (1≦i≦m) recording layer (2) and an ith negative refractive index layer (3) are alternately provided on the substrate (1), and the first to mth negative refractive index layers (3) effectively have a negative refractive index at a wavelength of the recording light or the reproducing light.
    • 为了提供一种信息记录介质,其能够在改善记录层的环境阻力的同时降低对记录层的损害,并且能够以高密度和高灵敏度进行记录或再现的信息,光信息记录和再现装置, 光信息记录和再现方法以及信息记录介质的制造方法。 信息记录介质(24)包括:基板(1); 分别设置在记录光的入射侧的记录层(2)或者相对于基板(1)再次发光的记录层(2)的距离更靠近入射侧的第一到第m(其中m是等于或大于1的整数) ; 和第一至第m(其中m是等于或大于1的整数)负折射率层(3)相对于第m个记录层(2)分别设置在记录光或再现光的入射侧上 的距离更靠近入射侧,其中在基板(1)上交替地设置第i(1≦̸ i≦̸ m)记录层(2)和第i负折射率层(3),并且第一至第m负折射率 折射率层(3)在记录光或再现光的波长处有效地具有负折射率。
    • 5. 发明授权
    • Confocal optical device and spherical-aberration correction method
    • 共焦光学装置和球面像差校正方法
    • US07477407B2
    • 2009-01-13
    • US11268663
    • 2005-11-08
    • Tatsuo ItohTeruhiro ShionoKazuya Hisada
    • Tatsuo ItohTeruhiro ShionoKazuya Hisada
    • G01B11/28
    • G01B11/0616G01B9/04G02B21/0072
    • A confocal optical device and a spherical-aberration correction method reduce the generation of spherical aberration. This confocal optical device includes a drive mechanism which moves a sample board to change the distance between an objective lens and the sample board. A spherical-aberration correction element is disposed between a light source and the objective lens. A reference-position detection section, based on a detection result by a photo-detector, detects the position of the sample board when the focal position of the objective lens coincides with the surface of the sample. A movement-distance derivation section, based on a detection result by the photo-detector, calculates a distance by which the sample board is moved until the focal position of the objective lens coincides with an object to be measured inside of the sample, and derives the depth at which the measured object is located in the sample. A correction control section controls the spherical-aberration correction element according to the inside-sample depth of the measured object.
    • 共焦光学装置和球面像差校正方法减少了球面像差的产生。 该共焦光学装置包括驱动机构,该驱动机构移动样品板以改变物镜与样品板之间的距离。 在光源和物镜之间设置球面像差校正元件。 当基准位置检测部分基于光检测器的检测结果,当物镜的焦点位置与样品的表面一致时,检测样品板的位置。 基于光检测器的检测结果的运动距离导出部分计算样品板移动到物镜的焦点位置与样品内部待测物体重合的距离,并导出 测量对象位于样品中的深度。 校正控制部根据测量对象的内部样本深度控制球面像差校正元件。
    • 7. 发明授权
    • Optical head device and optical information reproducing device
    • 光头装置和光信息重放装置
    • US07193955B2
    • 2007-03-20
    • US10802464
    • 2004-03-17
    • Tatsuo ItoTeruhiro ShionoSeiji NishinoHiroaki Yamamoto
    • Tatsuo ItoTeruhiro ShionoSeiji NishinoHiroaki Yamamoto
    • G11B7/00
    • G11B7/131G11B7/133G11B2007/0013
    • An optical head device includes: an optical element collecting light reflected from a reproduction information layer (a target information layer in an optical information recording medium) and light reflected from information layers adjacent to the reproduction information layer at different positions; a light receiving element obtaining a detection signal from the reflected light collected by this optical element; and arithmetic circuitry obtaining a reproduction signal from this detection signal. The light receiving element includes: a first light receiving portion detecting a first detection signal from light containing the light reflected from the reproduction information layer; a second light receiving portion detecting a second detection signal from light reflected from a first adjacent information layer located more distant from the condensing lens than the reproduction information layer; and a third light receiving portion detecting a third detection signal from light reflected from a second adjacent information layer located closer to the condensing lens than the reproduction information layer. The arithmetic circuitry uses constants K and L determined depending on spaces between the reproduction information layer and the adjacent information layers, so as to subtract the K-times second detection signal and the L-times third detection signal from the first detection signal.
    • 光头装置包括:收集从再现信息层(光信息记录介质中的目标信息层)反射的光的光学元件和在不同位置处与再现信息层相邻的信息层反射的光; 光接收元件,从由该光学元件收集的反射光获得检测信号; 以及算术电路,从该检测信号获得再现信号。 光接收元件包括:第一光接收部分,从包含从再现信息层反射的光的光检测第一检测信号; 第二光接收部分,从与再现信息层相比位于比聚光透镜更远的第一相邻信息层反射的光中检测第二检测信号; 以及第三光接收部分,从与再现信息层相比更靠近聚光透镜的第二相邻信息层反射的光检测第三检测信号。 算术电路使用根据再现信息层和相邻信息层之间的空格确定的常数K和L,以便从第一检测信号中减去K倍的第二检测信号和L倍的第三检测信号。
    • 8. 发明申请
    • Optical information reproduction device
    • 光信息再现装置
    • US20060140070A1
    • 2006-06-29
    • US10563274
    • 2004-11-01
    • Teruhiro ShionoSeiji NishinoTatsuo Itoh
    • Teruhiro ShionoSeiji NishinoTatsuo Itoh
    • G11B7/00
    • G11B7/1381B82Y10/00G11B7/00452G11B7/00454G11B7/00455G11B7/1275G11B7/1365G11B7/24038G11B7/24085G11B2007/0013
    • An information recording medium (21) of the optical information reproduction device of the present invention includes a recording unit (3) capable of recording information three-dimensionally and provided with a track, and information is recorded by forming a plurality of recording marks along the track of the recording unit by a mark length recording method. When the track direction of the recording marks is assumed to be their longitudinal direction and the direction perpendicular to the track direction is assumed to be their lateral direction, with the present invention, for recording marks located substantially in the same plane, the total area of elongated recording marks, whose longitudinal length is greater than their lateral length, is greater than the total area of recording marks having other than elongated shapes. The optical information reproduction device of the present invention includes a first light source (20a) for emitting a reproduction light (22b) having a wavelength λ1, an objective lens (6) for focusing the reproduction light on the recording unit, and a first photodetector (19a) for detecting a reproduction signal from the reflected light from the recording unit. The focused reproduction light includes as its main component a polarized light component that is polarized perpendicular to the track direction. Also, the recording unit has a track pitch of no more than 1.3 times the wavelength λ1 of the reproduction light.
    • 本发明的光学信息再现装置的信息记录介质(21)包括一个记录单元(3),它能够三维地记录信息并提供一个轨道,并且通过沿着该轨迹形成多个记录标记来记录信息 通过标记长度记录方法记录单元的轨迹。 假设记录标记的轨道方向为纵向方向,并且垂直于轨迹方向的方向被认为是其横向方向,根据本发明,对于基本位于同一平面上的记录标记, 其长度大于其横向长度的细长记录标记大于具有不同于细长形状的记录标记的总面积。 本发明的光信息再现装置包括用于发射具有波长λ1的再现光(22b)的第一光源(20b),用于聚焦再现的物镜(6) 记录单元上的光,以及用于检测来自记录单元的反射光的再现信号的第一光电检测器(100a)。 聚焦再现光包括垂直于轨道方向偏振的偏振光分量作为其主要分量。 此外,记录单元具有不超过再现光的波长λ1的1.3倍的轨道间距。
    • 10. 发明授权
    • Diffractive optical element and optical head using the same
    • 衍射光学元件和使用其的光学头
    • US06987615B2
    • 2006-01-17
    • US10264467
    • 2002-10-04
    • Teruhiro ShionoHidenori WadaSeiji Nishino
    • Teruhiro ShionoHidenori WadaSeiji Nishino
    • G02B5/18
    • G11B7/1275G02B5/1871G11B2007/0006
    • A diffractive optical element emits substantially zero order diffracted light when light with a wavelength of 0.35 μm to 0.45 μm is incident and emits substantially first-order diffracted light when light with a wavelength of 0.6 μm to 0.7 μm is incident. The diffractive optical element includes a substrate and a grating portion formed on the substrate. The grating portion has a step-wise cross section with any one of levels selected from four levels, five levels and six levels. The diffractive optical element emits substantially zero-order diffracted light when light with a first wavelength λ1 satisfying the relationship: 0.35 μm≦λ1≦0.45 μm is incident and emits substantially first-order diffracted light when light with a second wavelength λ2 satisfying the relationship: 0.6 μm≦λ2≦0.7 μm is incident.
    • 当波长为0.35μm至0.45μm的光入射时,衍射光学元件发射基本为零级的衍射光,并且当入射具有0.6μm至0.7μm波长的光时,发射基本上为一级的衍射光。 衍射光学元件包括基板和形成在基板上的光栅部分。 光栅部分具有从四个级别,五个级别和六个级别中选择的任何一个级别的逐步横截面。 当具有第一波长λ1的满足0.35μm<λλ=0.45μm的关系的光入射时,衍射光学元件发射基本上为零级的衍射光,并且当具有第二波长λ的光时发射基本上一级的衍射光 2满足关系:0.6mum <=λ2 <=0.7μm是入射的。