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    • 12. 发明申请
    • Magnetic element
    • 磁性元件
    • US20070064342A1
    • 2007-03-22
    • US11390475
    • 2006-03-28
    • Shiho NakamuraHirofumi MoriseShigeru Haneda
    • Shiho NakamuraHirofumi MoriseShigeru Haneda
    • G11B5/23
    • H01F10/3268B82Y25/00G11C11/16H01F10/3254H01F10/329H01L29/66984H01L43/08Y10S977/933
    • A magnetic element includes a channel layer, a first magnetic electrode which is in contact with the channel layer, a second magnetic electrode which is in contact with the channel layer and is insulated from the first magnetic electrode, a first intermediate layer which is provided adjacent to the first magnetic electrode and has a first insulating layer, a first magnetic layer which is provided in contact with a surface of the first intermediate layer on an opposite side to a surface contacting the first magnetic electrode to transfer magnetization to the first magnetic electrode, a first electrode which is connected to the first magnetic electrode, and a second electrode which is connected to the second magnetic electrode, at least one of the first electrode and the second electrode outputting a first signal which changes depending on a magnetic arrangement of the first magnetic electrode and the second magnetic electrode.
    • 磁性元件包括沟道层,与沟道层接触的第一磁电极,与沟道层接触并与第一磁极绝缘的第二磁极,邻近设置的第一中间层 并且具有第一绝缘层,第一磁性层与第一中间层的与第一磁极接触的表面的相对侧与第一中间层的表面接触以将磁化转移到第一磁极, 连接到第一磁极的第一电极和连接到第二磁极的第二电极,第一电极和第二电极中的至少一个输出根据第一电极的磁性排列而变化的第一信号 磁极和第二磁极。
    • 13. 发明申请
    • Magnetic recording element and magnetic recording device using the same
    • 磁记录元件及使用其的磁记录装置
    • US20060060901A1
    • 2006-03-23
    • US11117482
    • 2005-04-29
    • Shiho NakamuraShigeru HanedaHirofumi Morise
    • Shiho NakamuraShigeru HanedaHirofumi Morise
    • H01L29/94
    • G11C11/16H01L27/222H01L27/224H01L27/228H01L43/08Y10T428/1143Y10T428/1171Y10T428/1193
    • A magnetic recording element includes a fixed layer having first and second surfacesm, a recording layer having third and fourth surfaces and being essentially made of a ferromagnetic material having first and second atomic potentials for the majority-spin band electrons and the minority-spin band electrons, a spacer layer being arranged between the fixed and recording layers and being in contact with the second and third surfaces, a cap layer having fifth and sixth surfaces, being essentially made of a nonmagnetic material having a third atomic potential less than an intermediate value between the first and second atomic potentials, and having a thickness of not more than 3 nm, the fifth surface being in contact with the fourth surface, and a reflecting layer being in contact with the sixth surface and being essentially made of a nonmagnetic material having a forth atomic potential different from the third atomic potential.
    • 磁记录元件包括具有第一表面和第二表面的固定层,具有第三表面和第四表面的记录层,并且主要由具有第一和第二原子电位的铁磁材料制成,用于多数自旋带电子和少数自旋带电子 ,间隔层布置在固定层和记录层之间并且与第二和第三表面接触,具有第五和第六表面的盖层基本上由非磁性材料制成,其具有小于第三原子电位之间的中间值 第一和第二原子电位,并且具有不大于3nm的厚度,第五表面与第四表面接触,反射层与第六表面接触并且基本上由非磁性材料制成,具有 第四原子电位与第三原子电位不同。
    • 14. 发明授权
    • Magnetic device to reduce reversal current in current-driven magnetic reversal and magnetic memory using same
    • 磁性装置可减少电流驱动磁反转和磁存储器中的反转电流
    • US07486486B2
    • 2009-02-03
    • US10954099
    • 2004-09-30
    • Shiho NakamuraShigeru Haneda
    • Shiho NakamuraShigeru Haneda
    • G11B5/127
    • G11C11/15G11B5/1276
    • A magnetic device includes a first ferromagnetic layer in which magnetic layers and one or more nonmagnetic layers are alternately stacked, a second ferromagnetic layer having magnetization substantially fixed to a second direction, a third ferromagnetic layer provided between the first and second ferromagnetic layers and having a variable direction of magnetization, and a couple of electrodes configured to provide write current between the first and second ferromagnetic layers so that the direction of magnetization of the third ferromagnetic layer is determined depending on a direction of the current. At least one layer of the magnetic layers has magnetization substantially fixed to a first direction. Two or more layers of the magnetic layers are ferromagnetically coupled via the nonmagnetic layers. The ferromagnetic coupling has a strength such that a parallel magnetic alignment of the magnetic layers is maintained when the write current is passed.
    • 磁性装置包括第一铁磁层,其中磁性层和一个或多个非磁性层交替堆叠,具有基本上固定在第二方向上的磁化的第二铁磁层;设置在第一和第二铁磁层之间的第三铁磁层, 可变磁化方向,以及配置成在第一和第二铁磁层之间提供写入电流的一对电极,使得第三铁磁层的磁化方向根据电流的方向来确定。 至少一层磁性层具有大致固定在第一方向上的磁化。 两层或多层磁性层通过非磁性层铁磁耦合。 铁磁耦合具有这样的强度,使得当写入电流通过时,保持磁性层的平行磁性取向。
    • 15. 发明授权
    • Magnetic cell and magnetic memory
    • 磁性细胞和磁记忆
    • US07126849B2
    • 2006-10-24
    • US11227493
    • 2005-09-16
    • Shiho NakamuraShigeru HanedaYuichi Ohsawa
    • Shiho NakamuraShigeru HanedaYuichi Ohsawa
    • G11C11/14
    • H01L43/08G11C11/15G11C11/16G11C11/5607H01L27/224H01L27/228
    • A magnetic cell includes: a first ferromagnetic layer whose magnetization is substantially fixed in a first direction; a second ferromagnetic layer whose magnetization is substantially fixed in a second direction opposite to the first direction; a third ferromagnetic layer provided between the first and the second ferromagnetic layers, a direction of magnetization of the third ferromagnetic layer being variable; a first intermediate layer provided between the first and the third ferromagnetic layers; and a second intermediate layer provided between the second and the third ferromagnetic layers. The direction of magnetization of the third ferromagnetic layer can be determined under an influence of spin-polarized electrons upon the third ferromagnetic layer by passing a current between the first and the second ferromagnetic layers.
    • 磁性电池包括:第一铁磁层,其磁化基本上固定在第一方向上; 第二铁磁层,其磁化基本上固定在与第一方向相反的第二方向上; 设置在所述第一和第二铁磁层之间的第三铁磁层,所述第三铁磁层的磁化方向是可变的; 设置在第一和第三铁磁层之间的第一中间层; 以及设置在第二和第三铁磁层之间的第二中间层。 可以通过在第一和第二铁磁层之间通过电流,在自旋极化电子对第三铁磁层的影响下确定第三铁磁层的磁化方向。
    • 18. 发明授权
    • Magnetic element and magnetic element array
    • 磁性元件和磁性元件阵列
    • US06906949B1
    • 2005-06-14
    • US10401865
    • 2003-03-31
    • Shiho NakamuraShigeru HanedaHiroaki Yoda
    • Shiho NakamuraShigeru HanedaHiroaki Yoda
    • G11C11/14G11C11/15G11C11/16H01F10/32H01L27/22H01L43/08
    • H01L43/08B82Y25/00G11C11/15G11C11/16H01F10/3263H01F10/329H01L27/228
    • A magnetic element comprises a first magnetic reference part (A) including a first ferromagnetic substance pinned in magnetization (M1) substantially in a first direction, a second magnetic reference part (E) including a second ferromagnetic substance pinned in magnetization (M3) substantially in a second direction, and a magnetic recording part (C) provided between the first and second magnetic reference parts. The magnetic recording part includes a third ferromagnetic substance. A spin transfer intermediate part (B) is provided between the first magnetic reference part and the magnetic recording part. An intermediate part (D) is provided between the second magnetic reference part and the magnetic recording part. A magnetization (M2) of the third ferromagnetic substance can be directed in a direction parallel or anti-parallel to the first direction by passing a writing current between the first magnetic reference part and the magnetic recording part. A relative relation between the second direction and the direction of the magnetization of the third ferromagnetic substance can be detected by passing a sense current between the second magnetic reference part and the magnetic recording part.
    • 磁性元件包括:第一磁性参考部分(A),包括基本上沿第一方向被钉扎在磁化(M 1)中的第一铁磁物质;第二磁性参考部分(E),包括在磁化(M 3)中被钉扎的第二铁磁性物质, 基本上在第二方向上的磁记录部分(C)和设置在第一和第二磁参考部分之间的磁记录部分(C)。 磁记录部分包括第三铁磁物质。 自旋转移中间部分(B)设置在第一磁参考部分和磁记录部分之间。 中间部分(D)设置在第二磁参考部分和磁记录部分之间。 第三铁磁性物质的磁化强度(M 2)可以通过使第一磁性参考部件和磁性记录部件之间的写入电流通过而在与第一方向平行或反平行的方向上被引导。 可以通过在第二磁参考部分和磁记录部分之间通过感测电流来检测第二方向与第三铁磁物质的磁化方向之间的相对关系。
    • 19. 发明授权
    • Magnetic cell and magnetic memory
    • 磁性细胞和磁记忆
    • US07372727B2
    • 2008-05-13
    • US11328112
    • 2006-01-10
    • Shiho NakamuraShigeru HanedaYuichi Ohsawa
    • Shiho NakamuraShigeru HanedaYuichi Ohsawa
    • G11C11/14
    • H01L43/08G11C11/15G11C11/16G11C11/5607H01L27/224H01L27/228
    • A magnetic cell includes: a first ferromagnetic layer whose magnetization is substantially fixed in a first direction; a second ferromagnetic layer whose magnetization is substantially fixed in a second direction opposite to the first direction; a third ferromagnetic layer provided between the first and the second ferromagnetic layers, a direction of magnetization of the third ferromagnetic layer being variable; a first intermediate layer provided between the first and the third ferromagnetic layers; and a second intermediate layer provided between the second and the third ferromagnetic layers. The direction of magnetization of the third ferromagnetic layer can be determined under an influence of spin-polarized electrons upon the third ferromagnetic layer by passing a current between the first and the second ferromagnetic layers.
    • 磁性电池包括:第一铁磁层,其磁化基本上固定在第一方向上; 第二铁磁层,其磁化基本上固定在与第一方向相反的第二方向上; 设置在所述第一和第二铁磁层之间的第三铁磁层,所述第三铁磁层的磁化方向是可变的; 设置在第一和第三铁磁层之间的第一中间层; 以及设置在第二和第三铁磁层之间的第二中间层。 可以通过在第一和第二铁磁层之间通过电流,在自旋极化电子对第三铁磁层的影响下确定第三铁磁层的磁化方向。