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    • 21. 发明授权
    • Magneto-optical disk and the reproducing method thereof
    • 磁光盘及其再现方法
    • US5477528A
    • 1995-12-19
    • US346586
    • 1994-11-16
    • Yoshiteru MurakamiJunsaku NakajimaAkira TakahashiJunichiro NakayamaKenji Ohta
    • Yoshiteru MurakamiJunsaku NakajimaAkira TakahashiJunichiro NakayamaKenji Ohta
    • G11B11/10G11B11/105G11B7/00
    • G11B11/10515G11B11/10595
    • A magneto-optical disk, which possesses a disc-shaped substrate and a recording layer composed of a perpendicular magnetization film that is formed on the substrate, characterized in having: an area wherein magnetic domains having an upward magnetization and magnetic domains having a downward magnetization are alternately aligned along at least one circuit of the disk, the area being formed on the recording layer, the length of the magnetic domains having the upward magnetization being virtually equal to the length of the magnetic domains having the downward magnetization. This invention also has a reproducing method which is characterized in that, when information is reproduced by projecting a light beam onto the magneto-optical recording disk, the intensity of the light beam is adjusted so as to maximize the amplitude of a reproduced signal that is obtained from the area. With the above arrangement, a high-quality reproduced signal can be obtained independent of the characteristics of individual magneto-optical disks.
    • 一种磁光盘,其具有盘形基板和由形成在基板上的垂直磁化膜构成的记录层,其特征在于具有:具有向上磁化的磁畴和具有向下磁化的磁畴的区域 沿着盘的至少一个电路交替排列,所述区域形成在记录层上,具有向上磁化的磁畴的长度实质上等于具有向下磁化的磁畴的长度。 本发明还具有一种再现方法,其特征在于,当通过将光束投射到磁光记录盘上来再现信息时,调整光束的强度,以使得再现信号的幅度最大化 从该地区获得。 通过上述配置,可以独立于各个磁光盘的特性来获得高质量的再生信号。
    • 22. 发明授权
    • Magneto-optical recording and reproducing device having light
interrupting forming main robe and side robe light beam portions
    • 具有遮光形成主袍和侧蓬灯光部分的磁光记录和再现装置
    • US5452272A
    • 1995-09-19
    • US175748
    • 1993-12-30
    • Yoshiteru MurakamiJunsaku NakajimaAkira TakahashiKenji Ohta
    • Yoshiteru MurakamiJunsaku NakajimaAkira TakahashiKenji Ohta
    • G11B7/135G11B11/10G11B11/105G11B11/00
    • G11B11/10586G11B11/10515G11B11/10543
    • A magneto-optical recording and reproducing device is provided with a magneto-optical disk for reproducing recorded information using light, a semiconductor laser, an objective lens for converging a light beam emitted from the semiconductor laser onto the magneto-optical disk and a light interrupting member for interrupting a portion of a light beam before it is incident on the objective lens. The magneto-optical disk is composed of a readout layer which is predominant in in-plane magnetization, and in which a transition occurs to be predominant in perpendicular magnetization as temperature thereof is raised and a recording layer for recording thereon information using a perpendicular magnetization. In this arrangement, since the light interrupting member is provided, a light spot can be made smaller, thereby improving a recording density. Moreover, even when temperature of the readout layer is raised due to a side robe generated by the light interrupting member, in-plane magnetization is maintained in the readout layer. Thus, interference by unwanted reproducing signals due to the side robe can be prevented, thereby improving a reproducing signal quality.
    • 磁光记录和再现装置设置有用于使用光再现记录信息的磁光盘,半导体激光器,用于将从半导体激光器发射的光束会聚到磁光盘上的物镜和光中断 用于在光束入射到物镜之前中断光束的一部分。 磁光盘由在平面磁化中占主要地位的读出层组成,其中随着温度的升高而在垂直磁化中发生转移,而在其中利用垂直磁化记录信息的记录层。 在这种布置中,由于设置了遮光构件,可以使光点更小,从而提高记录密度。 此外,即使由于由遮光构件产生的侧蓬而导致读出层的温度上升,在读出层中也保持平面内的磁化。 因此,可以防止由于侧灯引起的不必要的再现信号的干扰,从而提高再现信号质量。
    • 23. 发明授权
    • Optical recording element and driving system
    • 光学记录元件和驱动系统
    • US5335220A
    • 1994-08-02
    • US821361
    • 1992-01-16
    • Kenji OhtaTetsuya InuiHiroyuki KatayamaAkira TakahashiJunji HirokaneYukinori NishitaniMichinobu MiedaKazuo Van
    • Kenji OhtaTetsuya InuiHiroyuki KatayamaAkira TakahashiJunji HirokaneYukinori NishitaniMichinobu MiedaKazuo Van
    • G11B7/0045G11B7/013G11B7/09G11B7/125G11B7/24G11B7/24085G11B11/105G11B19/02G11B3/78
    • G11B7/0045G11B11/10528G11B11/10578G11B11/10595G11B19/02G11B7/0938G11B7/126G11B7/24G11B7/24085
    • An optical recording element comprising a recording medium which includes an information recording area formed at every unit in a non-continuous condition, the recording medium further including sample pits disposed at intervals of a fixed distance for providing basic information about the locations of the recording units in same track. Each sample pit comprises a plurality of pits disposed next to the sequence of the recording units so that the spacing between the pits differs from the spacing between the recording units. At least one of the plurality of pits is a long-sized inclined pit which is inclined at an angle in the range of 6.degree. to 80.degree. to a recording track. A driving system for driving the optical recording element for recording information in the non-continuous recording area or erasing information stored therein with a light beam the output of which is varied as required and checking whether said recording or erasing has been correctly performed, within a very short time in which the light beam passes through the non-continuous recording area. By using the optical recording element in combination with its driving system, the processing speed for reducing, erasing and verifying these functions can be greatly improved and the irradiating position of the light beam at every recording unit can be correctly controlled.
    • 一种光记录元件,包括记录介质,该记录介质包括在非连续状态下在每个单元处形成的信息记录区域,所述记录介质还包括以固定距离间隔设置的样品坑,以提供关于记录单元的位置的基本信息 在同一轨道。 每个采样坑包括靠近记录单元序列设置的多个凹坑,使得凹坑之间的间隔与记录单元之间的间隔不同。 多个凹坑中的至少一个是相对于记录轨道以6°至80°的角度倾斜的长尺寸倾斜凹坑。 一种驱动系统,用于驱动用于在非连续记录区域中记录信息的光学记录元件,或者用存储在其中的光束擦除信息,该光束的输出根据需要变化,并且检查是否正确地执行了所述记录或擦除 光束通过非连续记录区域的非常短的时间。 通过与其驱动系统结合使用光学记录元件,可以大大提高用于减少,擦除和验证这些功能的处理速度,并且可以正确地控制每个记录单元处的光束的照射位置。
    • 24. 发明授权
    • Magnetic recording and reproducing apparatus having a ferrimagnetic
recording medium, a magnetic head and first and second light sources
    • 具有铁磁记录介质,磁头和第一和第二光源的磁记录和重放装置
    • US5293359A
    • 1994-03-08
    • US741932
    • 1991-08-08
    • Kenji OhtaAkira TakahashiJunsaku NakajimaYoshiteru MurakamiJunji Hirokane
    • Kenji OhtaAkira TakahashiJunsaku NakajimaYoshiteru MurakamiJunji Hirokane
    • G11B5/02G11B5/00G11B11/10G11B11/105G11B13/04
    • G11B5/00G11B2005/0021
    • A magnetic recording and reproducing apparatus using a recording medium made of a ferrimagnetic material, comprises a magnetic head for magnetically recording information on a recording area of a selected information recording track on a recording medium having a plurality of tracks and for magnetically reproducing the information from the recording medium, the magnetic head has a width larger than that of the width of the selected information recording track of the recording medium. For recording, light beams are radiated from a first light source on the recording area of the selected information recording track upon which recording is to be performed tracks to raise the temperature of the irradiated area to approximately a Curie temperature so as to allow recording only on that area. For reproduction, light beams are radiated from another light source onto areas on both sides of on a second area of the recording medium, located on both sides of the selected information recording track, to raise the temperature of the second irradiated areas to approximately a magnetic compensation temperature so as to allow reproduction only from the desired track, thus preventing crosstalk from the side tracks.
    • 使用由铁氧体材料制成的记录介质的磁记录和再现装置包括磁头,用于在具有多个轨道的记录介质上将所选择的信息记录轨道的记录区域上的信息磁记录,并用于从 记录介质中,磁头的宽度大于记录介质的选定信息记录道的宽度。 为了进行记录,光束从要进行记录的所选择的信息记录轨道的记录区域上的第一光源辐射,以将照射区域的温度升高到大约居里温度,以便仅在 那个地区。 为了再现,将光束从另一光源辐射到位于所选择的信息记录轨道的两侧的记录介质的第二区域的两侧的区域上,以将第二照射区域的温度升高到大约磁 补偿温度,以便仅允许从期望的轨道进行再现,从而防止来自侧轨的串扰。