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    Optical storage medium, optical read/write apparatus, and optical read/write method
    2.
    发明申请
    Optical storage medium, optical read/write apparatus, and optical read/write method 有权
    光存储介质,光读/写装置和光读/写方式

    公开(公告)号:US20100262981A1

    公开(公告)日:2010-10-14

    申请号:US12798333

    申请日:2010-03-31

    申请人: Junji Hirokane Noboru Iwata

    发明人: Junji Hirokane Noboru Iwata

    IPC分类号: G11B17/028 G11B7/26

    CPC分类号: G11B7/126 G11B7/0045 G11B7/00454 G11B7/007 G11B7/00718 G11B7/00745 G11B7/1267 G11B7/24 G11B7/24038 G11B7/263 G11B20/00086 G11B20/00195 G11B20/0021 G11B20/00253 G11B2007/0013

    摘要: An optical read/write apparatus causes a read/write light beam from illuminating means to strike only one side of an optical storage medium including stacked data storage layers each of which is readable/writeable separately from the other layers. In this case, the optical read/write apparatus operates so that data is read/written from/into a second data storage layer after fully recording a recordable area of a first data storage layer. Thus, light can be shone with uniform intensity across the substantially entire recordable area of the second data storage layer without using a complex read/write system even under such conditions that the transmittance to light of the first data storage layer in the recordable area may vary depending on whether any data is recorded in the recordable area.

    摘要翻译: 光学读/写装置使得来自照明装置的读/写光束仅对包括堆叠的数据存储层的光存储介质的一侧进行打印,每个存储层与其它层分开地可读/写。 在这种情况下,光学读/写装置的操作使得在完全记录第一数据存储层的可记录区域之后,数据从/向第二数据存储层进行读/写。 因此,即使在可记录区域中的第一数据存储层的透光率可以变化的条件下,也可以在第二数据存储层的大致整个可记录区域上照射光,而不使用复杂的读/写系统 取决于任何数据是否记录在可记录区域。

    Magneto-optical recording device with three distinct layers
    4.
    发明授权
    Magneto-optical recording device with three distinct layers 有权
    具有三个不同层的磁光记录装置

    公开(公告)号:US06430115B1

    公开(公告)日:2002-08-06

    申请号:US09386135

    申请日:1999-08-31

    申请人: Junji Hirokane Noboru Iwata

    发明人: Junji Hirokane Noboru Iwata

    IPC分类号: G11B1100

    CPC分类号: G11B11/10515 G11B11/10584 G11B11/10586

    摘要: A reproducing layer having perpendicular magnetization in a single layer, an in-plane magnetic layer, and a recording layer having perpendicular magnetization are formed in this order. When the reproducing layer, the in-plane magnetic layer, and the recording layer have the Curie temperatures of Tc1, Tc2, and Tc3, these values satisfy conditions of Tc2

    摘要翻译: 依次形成在单层中具有垂直磁化的再现层,面内磁性层和具有垂直磁化的记录层。 当再现层,面内磁性层和记录层具有Tc1,Tc2和Tc3的居里温度时,这些值满足Tc2

    Magneto-optical recording medium
    5.
    发明授权
    Magneto-optical recording medium 有权
    磁光记录介质

    公开(公告)号:US6117544A

    公开(公告)日:2000-09-12

    申请号:US336094

    申请日:1999-06-18

    申请人: Junji Hirokane Noboru Iwata Akira Takahashi

    发明人: Junji Hirokane Noboru Iwata Akira Takahashi

    IPC分类号: G11B11/10 G11B11/105 G11B5/66

    CPC分类号: G11B11/10593 G11B11/10584 G11B11/10515 Y10S428/90

    摘要: A recording layer and a flux adjustment layer have different magnetic polarities so that their magnetizations are countervailed at room temperature, with the result that a weakened leakage magnetic flux is released therefrom. A reproducing layer, a reproducing assist layer and an in-plane magnetization layer exhibit in-plane magnetization at room temperature. In a first temperature area having a temperature not more than the critical temperature of the reproducing layer, the reproducing layer 1 exhibits in-plane magnetization so that magnetization of a recording magnetic domain is not copied to the reproducing layer. In contrast, a second temperature area having a temperature rise between the critical temperature and the Curie temperature of the reproducing layer, the flux adjustment layer and the in-plane magnetization layer have reached their Curie temperatures and lost their magnetization; thus, a leakage magnetic flux generated by the magnetization of the recording magnetic domain is copied to the reproducing assist layer that is in a perpendicular magnetization state, and further copied to the reproducing layer. Moreover, in a third temperature area having a temperature rise exceeding the Curie temperature of the reproducing layer, the reproducing layer has lost its magnetization.

    摘要翻译: 记录层和磁通调节层具有不同的磁极性,使得它们的磁化在室温下抵消,结果是从其中释放出弱化的漏磁通。 再现层,再现辅助层和平面内磁化层在室温下表现出平面内的磁化强度。 在温度不超过再生层的临界温度的第一温度区域中,再现层1表现出平面内的磁化,使得记录磁畴的磁化不被复制到再现层。 相反,具有临界温度和再生层的居里温度之间的温度上升的第二温度区域,通量调节层和面内磁化层已经达到居里温度并失去其磁化强度; 因此,由记录磁畴的磁化产生的泄漏磁通被复制到处于垂直磁化状态的再现辅助层,并进一步复制到再现层。 此外,在温度升高超过再现层的居里温度的第三温度区域中,再现层已经失去其磁化。

    Optical storage medium, optical read/write apparatus, and optical read/write method
    8.
    发明申请
    Optical storage medium, optical read/write apparatus, and optical read/write method 有权
    光存储介质,光读/写装置和光读/写方式

    公开(公告)号:US20070133371A1

    公开(公告)日:2007-06-14

    申请号:US11701942

    申请日:2007-02-02

    申请人: Junji Hirokane Noboru Iwata

    发明人: Junji Hirokane Noboru Iwata

    IPC分类号: G11B7/20

    CPC分类号: G11B7/126 G11B7/0045 G11B7/00454 G11B7/007 G11B7/00718 G11B7/00745 G11B7/1267 G11B7/24 G11B7/24038 G11B7/263 G11B20/00086 G11B20/00195 G11B20/0021 G11B20/00253 G11B2007/0013

    摘要: An optical read/write apparatus causes a read/write light beam from illuminating means to strike only one side of an optical storage medium including stacked data storage layers each of which is readable/writeable separately from the other layers. In this case, the optical read/write apparatus operates so that data is read/written from/into a second data storage layer after fully recording a recordable area of a first data storage layer. Thus, light can be shone with uniform intensity across the substantially entire recordable area of the second data storage layer without using a complex read/write system even under such conditions that the transmittance to light of the first data storage layer in the recordable area may vary depending on whether any data is recorded in the recordable area.

    摘要翻译: 光学读/写装置使得来自照明装置的读/写光束仅对包括堆叠的数据存储层的光存储介质的一侧进行打印,每个存储层与其它层分开地可读/写。 在这种情况下,光学读/写装置的操作使得在完全记录第一数据存储层的可记录区域之后,数据从/向第二数据存储层进行读/写。 因此,即使在可记录区域中的第一数据存储层的透光率可以变化的条件下,也可以在第二数据存储层的大致整个可记录区域上照射光,而不使用复杂的读/写系统 取决于任何数据是否记录在可记录区域。

    Magneto-optical recording medium and reproducing device
    10.
    发明授权
    Magneto-optical recording medium and reproducing device 失效
    磁光记录介质和再现装置

    公开(公告)号:US06346322B1

    公开(公告)日:2002-02-12

    申请号:US09455635

    申请日:1999-12-07

    申请人: Noboru Iwata Junji Hirokane

    发明人: Noboru Iwata Junji Hirokane

    IPC分类号: G11B566

    CPC分类号: G11B11/10515 G11B11/10584 G11B11/10593 Y10S428/90 Y10T428/26 Y10T428/265

    摘要: A magneto-optical recording medium includes at least a first magnetic layer, a second magnetic layer, a third magnetic layer, a non-magnetic intermediate layer and a fourth magnetic layer which are layered in this order, the first magnetic layer being formed of a perpendicularly magnetized film having a relatively small wall coercivity and a relatively large wall mobility compared with the third magnetic layer in the vicinity of a predetermined temperature, the second magnetic layer being formed of a magnetic film whose Curie temperature is lower than the Curie temperatures of the first magnetic layer and third magnetic layer, the fourth magnetic layer being a perpendicularly magnetized film with a uniform magnetization direction and forming a region having a uniform magnetization direction in the first magnetic layer by magnetostatic coupling with the first magnetic layer when the second magnetic layer is heated to a predetermined temperature or a higher temperature.

    摘要翻译: 磁光记录介质至少包括依次层叠的第一磁性层,第二磁性层,第三磁性层,非磁性中间层和第四磁性层,第一磁性层由 垂直磁化膜,具有相对较小的壁矫顽力和相对于第三磁性层在预定温度附近相对较大的壁迁移率,第二磁性层由居里温度低于居里温度的磁性膜形成 第一磁性层和第三磁性层,第四磁性层是具有均匀磁化方向的垂直磁化膜,并且当第二磁性层为第一磁性层时,通过与第一磁性层的静磁耦合,在第一磁性层中形成具有均匀磁化方向的区域 加热到预定温度或更高的温度。