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    • 2. 发明授权
    • Magneto-optical recording medium and method of recording and reproducing
using the same
    • 磁光记录介质及使用其的记录和再现方法
    • US5683803A
    • 1997-11-04
    • US433088
    • 1995-05-03
    • Junichiro NakayamaMichinobu MiedaJunji HirokaneAkira TakahashiKenji Ohta
    • Junichiro NakayamaMichinobu MiedaJunji HirokaneAkira TakahashiKenji Ohta
    • G11B11/10G11B11/105G11B5/66B32B5/16
    • G11B11/10586G11B11/10506G11B11/10515G11B11/10523Y10S428/90Y10T428/26Y10T428/265
    • A magneto-optical recording medium includes a first magnetic layer and a second magnetic layer being laminated. When information is to be recorded on the first magnetic layer, first, a magnetization direction in the second magnetic layer is arranged in one direction with an application of an initialization magnetic field. Then, an intensity modulated light beam is projected while applying thereto a recording magnetic field so as to change the magnetization direction in the second magnetic layer. Thereafter, the magnetization direction in the second magnetic layer is copied to the first magnetic layer, thereby recording information. The first magnetic layer has a magnetization in an intermediate direction between a perpendicular direction and an in-plane direction at room temperature, while has a perpendicular magnetization at above a predetermined temperature. Therefore, a smaller exchange coupling force is exerted from the first magnetic layer to the second magnetic layer at room temperature, thereby enabling a rewriting information with a smaller initialization magnetic field compared with the conventional method, thereby achieving a reduction in size of the apparatus and power conservation.
    • 磁光记录介质包括层叠的第一磁性层和第二磁性层。 当要在第一磁性层上记录信息时,首先,通过施加初始化磁场,将第二磁性层中的磁化方向布置在一个方向上。 然后,施加强度调制光束,同时向其施加记录磁场,以改变第二磁性层中的磁化方向。 此后,将第二磁性层中的磁化方向复制到第一磁性层,从而记录信息。 第一磁性层在室温下具有在垂直方向和面内方向之间的中间方向上的磁化强度,同时具有高于预定温度的垂直磁化强度。 因此,与常规方法相比,在室温下从第一磁性层向第二磁性层施加较小的交换耦合力,从而能够实现与常规方法相比具有较小初始化磁场的重写信息,从而实现装置的尺寸减小 省电。
    • 3. 发明授权
    • Magneto-optical recording medium
    • 磁光记录介质
    • US5644566A
    • 1997-07-01
    • US432683
    • 1995-05-02
    • Junichiro NakayamaMichinobu MiedaHiroyuki KatayamaJunji HirokaneAkira TakahashiKenji Ohta
    • Junichiro NakayamaMichinobu MiedaHiroyuki KatayamaJunji HirokaneAkira TakahashiKenji Ohta
    • G11B11/105G11B7/00
    • G11B11/10586G11B11/10517
    • An intermediate layer is formed between a memory layer and a writing layer. The intermediate layer shows in-plane magnetization at room temperature, and perpendicular magnetization within a temperature range within which the coercive force of the memory layer is lower than that of the writing layer. The Curie point of the intermediate layer is lower than that of the memory layer. Like a conventional method, light-intensity modulation overwriting is performed by irradiating laser light whose intensity has been modulated between high level and low level while applying a recording magnetic field after performing an initialization. Even when there are variations in the raised temperature by the irradiation of laser light of high level, it is possible to perform stable overwriting with light-intensity modulation by satisfactorily restraining the exchange forces between the intermediate layer and the writing layer from causing coupling.
    • 在存储层和写入层之间形成中间层。 中间层在室温下显示出平面内的磁化强度,在存储层的矫顽力低于书写层的温度范围内的垂直磁化强度。 中间层的居里点低于存储层的居里点。 像传统方法一样,通过在执行初始化之后照射记录磁场的同时照射强度已经被调制在高电平和低电平之间的激光来执行光强调制重写。 即使通过高水平的激光照射而升高的温度存在变化,也可以通过令人满意地抑制中间层与书写层之间的交换作用而进行光强调制来进行稳定的重写。
    • 4. 发明授权
    • Magneto-optical recording method of overwriting without requiring an
initialization magnet
    • 重写磁光记录方法,不需要初始化磁铁
    • US5402408A
    • 1995-03-28
    • US964428
    • 1992-10-21
    • Junji HirokaneHiroyuki KatayamaJunichiro NakayamaMichinobu MiedaKenji Ohta
    • Junji HirokaneHiroyuki KatayamaJunichiro NakayamaMichinobu MiedaKenji Ohta
    • G11B11/105G11B11/10G11B7/24
    • G11B11/10584G11B11/10506G11B11/10519G11B11/10586
    • A magneto-optical recording method for rewriting of information including the steps of projecting a light beam, whose intensity varies in response to information to be recorded, onto a magnetic thin film with perpendicular magnetization while an external magnetic field of a constant intensity is being applied thereto; and arranging the magnetization direction of an area irradiated with the light beam of the magnetic thin film with perpendicular magnetization in the direction of the external magnetic field when projecting the light beam of high intensity, while arranging it in the direction of demagnetizing field, opposite to the direction of the external magnetic field generated by magnetization in the vicinity of the irradiated area when projecting the light beam of low intensity, and a magneto-optical memory element provided with a base whereon the magnetic thin film with perpendicular magnetization and an in-plane magnetization film are formed. With the above arrangement, an overwriting operation can be carried out through light intensity modulation without requiring an initialization magnet.
    • 一种用于重写信息的磁光记录方法,包括以下步骤:将强度随着要记录的信息而变化的光束投射到具有恒定强度的外部磁场的垂直磁化的磁性薄膜上, 到; 以及当投射高强度光束时,沿着外部磁场的方向,使磁性薄膜的光束照射的区域的磁化方向排列成与退磁场相反的方向 当投射低强度光束时,在照射区域附近由磁化产生的外部磁场的方向以及设置有具有垂直磁化和平面内的磁性薄膜的基底的磁光存储元件 形成磁化膜。 通过上述配置,可以通过光强调制而不需要初始化磁体来进行重写操作。
    • 5. 发明授权
    • Method of manufacturing a master plate where its guide groove has an
inclined angle
    • 制造其导向槽具有倾斜角的主板的方法
    • US5347510A
    • 1994-09-13
    • US4266
    • 1993-01-14
    • Junji HirokaneHiroyuki KatayamaJunichiro NakayamaMichinobu MiedaKenji Ohta
    • Junji HirokaneHiroyuki KatayamaJunichiro NakayamaMichinobu MiedaKenji Ohta
    • G01Q80/00G11B7/007G11B7/24G11B7/26
    • G11B7/24076G11B7/261
    • A master plate for manufacturing a stamper for injecting molding of an optical memory device has a substrate having a plurality of guiding grooves on a surface thereof with a predetermined interval. The respective edge portions of the guiding grooves are inclined with respect to the surface of the substrate at an angle not more than 30.degree.. According to a manufacturing method of the master plate, the post-baking process is carried out at a baking temperature of not less than 150.degree. C. and an etching gas containing O.sub.2 gas of 4 (SCCM) to 10 (SCCM) is used. Thus, even when the copying is carried out with respect to the substrate of the optical memory device according to the injection molding process wherein the stamper, which is manufactured based on the above-mentioned master plate, is used, the mold release of the stamper can be carried out without being caught by the substrate. Thus, it is possible to keep the respective shapes of the guiding grooves of the s tamper, thereby enabling of manufacturing the substrate of the optical memory device with high repeatability.
    • 用于制造用于注射成型光学存储器件的压模的母板具有在其表面上以预定间隔具有多个导向槽的衬底。 引导槽的各个边缘部分相对于基板的表面以不大于30°的角度倾斜。 根据主板的制造方法,后烘烤处理在不低于150℃的烘烤温度下进行,并且使用含有4(SCCM)至10(SCCM)的O 2气体的蚀刻气体。 因此,即使在使用根据上述主板制造的压模的注射成型工艺相对于光学存储器件的基板进行复印时,压模的脱模 可以在不被基材捕获的情况下进行。 因此,可以保持篡改器的引导槽的各自的形状,从而能够以高重复性制造光学存储器件的基板。
    • 9. 发明授权
    • Magneto-optical recording medium having two reproduction layers and a
method for reproducing thereof
    • 具有两个再现层的磁光记录介质及其再现方法
    • US5633838A
    • 1997-05-27
    • US582481
    • 1996-01-03
    • Junji HirokaneJunichiro NakayamaMichinobu MiedaAkira Takahashi
    • Junji HirokaneJunichiro NakayamaMichinobu MiedaAkira Takahashi
    • G11B11/10G11B11/105G11B11/00
    • G11B11/10515G11B11/10586
    • A non-magnetic intermediate layer is provided between a reproductive layer and a recording layer. The reproductive layer is composed of a first reproductive layer and a second reproductive layer. When the first reproductive layer has a temperature that is higher than a first critical temperature, its stable magnetic domain width becomes smaller than a recording magnetic domain width so that the magnetization is reversed. When the second reproductive layer has a temperature that is higher than a second critical temperature, its stable magnetic domain width becomes larger than the recording magnetic domain width so that the reversed magnetic domain is collapsed. The first critical temperature is lower than the second critical temperature. A reproductive output having abrupt rising and falling can be obtained by the generation and the collapse of the reverse magnetic domain on the reproductive layer. For this reason, higher density recording required for larger capacity can be achieved.
    • 在生殖层和记录层之间设置非磁性中间层。 生殖层由第一生殖层和第二生殖层组成。 当第一生殖层具有高于第一临界温度的温度时,其稳定的磁畴宽度变得小于记录磁畴宽度,使得磁化反转。 当第二生殖层具有高于第二临界温度的温度时,其稳定的磁畴宽度变得大于记录磁畴宽度,使得反向磁畴被折叠。 第一临界温度低于第二临界温度。 具有突然上升和下降的生殖输出可以通过生殖层上的反向磁畴的产生和崩溃获得。 为此,可以实现更大容量所需的更高密度的记录。