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    • 5. 发明授权
    • Magneto-optical recording medium
    • 磁光记录介质
    • US5662988A
    • 1997-09-02
    • US387294
    • 1995-02-10
    • Junichiro NakayamaHiroyuki KatayamaAkira TakahashiKenji OhtaYoshiteru Murakami
    • Junichiro NakayamaHiroyuki KatayamaAkira TakahashiKenji OhtaYoshiteru Murakami
    • G11B11/105G11B11/10G11B13/04
    • G11B11/10586G11B11/10506G11B11/10515Y10S428/90Y10S430/146Y10T428/12632Y10T428/12861Y10T428/12986Y10T428/24942Y10T428/31678
    • The magneto-optical recording medium is provided with a readout layer which shows the in-plane magnetization and which changes from the in-plane magnetization to the vertical magnetization when its temperature rises higher than a predetermined temperature by irradiation of the light beam, a memory layer which records information thereon magneto-optically, an intermediate layer which keeps in-plane magnetization from room temperatures to its Curie temperature, and an writing layer which has a Curie temperature higher than that of the memory layer and has coercive force lower than that of the memory layer. Since the intermediate layer becomes a domain wall in optical modulation recording, it prevents the memory layer and the writing layer from forming a domain wall, so information can be recorded in good condition. Moreover, a portion of the readout layer besides a center portion of the light beam shows the in-plane magnetization and masks the memory layer at playback. Therefore, a recording bit can be made small and recording density can be improved without increasing interference of signals from neighboring recording bits, which causes noises.
    • 磁光记录介质设置有读出层,该读出层显示平面内的磁化强度,并且当读出层的温度通过照射光束而升高到高于预定温度时,其从平面内磁化强度变化到垂直磁化强度;存储器 在磁光上记录信息的层,将室内的平面磁化保持到其居里温度的中间层,以及具有比存储层的居里温度高的居里温度并具有低于存储层的矫顽力的矫顽力的写层 内存层。 由于中间层成为光调制记录中的畴壁,因此防止存储层和写入层形成畴壁,因此可以将信息记录在良好状态。 此外,除了光束的中心部分之外,读出层的一部分表示平面内磁化,并且在重放时掩蔽存储层。 因此,可以使记录位小,并且可以提高记录密度,而不会增加来自相邻记录位的信号的干扰,这导致噪声。
    • 6. 发明授权
    • Magneto-optical recording medium and method of reproducing
magneto-optical information using thereof
    • 磁光记录介质及其再现磁光信息的方法
    • US5637394A
    • 1997-06-10
    • US356857
    • 1994-12-15
    • Junsaku NakajimaNaoyasu IketaniYoshiteru MurakamiAkira TakahashiHiroyuki KatayamaKenji Ohta
    • Junsaku NakajimaNaoyasu IketaniYoshiteru MurakamiAkira TakahashiHiroyuki KatayamaKenji Ohta
    • G11B11/105G11B5/66
    • G11B11/10586G11B11/10515G11B11/10584Y10S428/90Y10T428/26Y10T428/265
    • A magneto-optical recording medium comprising a readout layer and a recording layer has a relationship that an external magnetic field H1 is smaller than an external magnetic field H4, where the H1 is a minimum external magnetic field necessary to make a magnetization direction of the readout layer direct to the direction reverse to a magnetization direction of the recording layer substantially at the room temperature, and the H4 is a maximum external magnetic field necessary to make the magnetization direction of the readout layer direct to the direction same as the magnetization direction of the recording layer at an high temperature not lower than a predetermined temperature. Moreover, the magneto-optical disk is provided, between the readout layer and the recording layer, with an intermediate layer which inhibits an effective bias magnetic field from the recording layer to the readout layer at the room temperature. Since it is possible to reproduce only the information in the high-temperature area close to the center of the laser beam irradiated during reproducing, recording density is improved. Furthermore, since an initializing magnetic field at reproducing is not necessary and the reproducing magnetic field can be made smaller, the apparatus can be made smaller and the electric power consumption can be decreased.
    • 包括读出层和记录层的磁光记录介质具有外部磁场H1小于外部磁场H4的关系,其中H1是使读出磁化方向发生所需的最小外部磁场 层直接与基本上在室温下的记录层的磁化方向相反的方向,并且H4是使读出层的磁化方向直到与磁化方向相同的方向所需的最大外部磁场 记录层在不低于预定温度的高温下进行。 此外,在读出层和记录层之间设置磁光盘,其中间层在室温下抑制从记录层到读出层的有效偏置磁场。 由于只能再现靠近在再现期间照射的激光束的中心的高温区域的信息,所以记录密度提高。 此外,由于不需要再现时的初始化磁场并且可以使再现磁场更小,所以可以使装置更小,并且可以降低电力消耗。
    • 7. 发明授权
    • Magneto-optical disk and method of manufacturing the same
    • 磁光盘及其制造方法
    • US5353278A
    • 1994-10-04
    • US694990
    • 1991-05-02
    • Yoshiteru MurakamiJunichiro NakayamaHiroyuki KatayamaAkira TakahashiKenji OhtaHirotaka Toki
    • Yoshiteru MurakamiJunichiro NakayamaHiroyuki KatayamaAkira TakahashiKenji OhtaHirotaka Toki
    • G11B11/105G11B23/00G11B5/54
    • G11B23/0042G11B11/10582G11B11/10584
    • A magneto-optical disk comprising a substrate whereon a recording medium is formed, and a depression is formed on the substrate on the inside of the recording medium of the substrate. A center hub is installed on the depression such that the center hub is substantially level with a protective resin layer covering the recording medium. On the center hub, a flying head performs CSS (Contact Start and Stop). This configuration of the disk eliminates the occurrence of dust due to the abrasion and head crash, and achieves stable CSS. A method of manufacturing the magneto-optical disk, wherein the protective resin layer is formed after installing the center hub on the depression. In this method, since a space is not produced between the center hub and the protective resin layer, the stable flying characteristics is obtained. And a magneto-optical disk whereon small physical bumps and pits are formed on the substrate on the inside of the recording medium, which prevents the flying head from sticking to the disk. A method of manufacturing the magneto-optical disk by using a stamper, which permits the disk to be mass produced.
    • 一种磁光盘,包括形成记录介质的基板,并且在基板的记录介质的内侧上的基板上形成凹陷。 中心毂安装在凹陷处,使得中心毂基本上与覆盖记录介质的保护树脂层水平。 在中心枢纽上,飞头执行CSS(联系人启动和停止)。 盘的这种配置消除了由于磨损和头部碰撞引起的灰尘的发生,并且实现了稳定的CSS。 一种制造磁光盘的方法,其中在将中心毂安装在凹陷部之后形成保护树脂层。 在该方法中,由于在中心轮毂和保护树脂层之间不产生空间,因此获得了稳定的飞行特性。 另外,在记录介质的内侧的基板上形成小的物理凸点和凹坑的磁光盘,防止飞头粘附到盘上。 通过使用压模来制造磁光盘的方法,该压模允许大量生产盘。