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    • 1. 发明授权
    • Magnetic control device, and magnetic component and memory apparatus using the same
    • 磁控装置及使用其的磁性部件及存储装置
    • US06590268B2
    • 2003-07-08
    • US09803571
    • 2001-03-09
    • Hideaki AdachiAkihiro OdagawaMasayoshi HiramotoNozomu MatsukawaHiroshi Sakakima
    • Hideaki AdachiAkihiro OdagawaMasayoshi HiramotoNozomu MatsukawaHiroshi Sakakima
    • H01L4300
    • G11C11/16
    • A magnetic control device including an antiferromagnetic layer, a magnetic layer placed in contact with one side of the antiferromagnetic layer, and an electrode placed in contact with another side of the antiferromagnetic layer, wherein the direction of the magnetization of the magnetic layer is controlled by voltage applied between the magnetic layer and the electrode. In particular, when an additional magnetic layer is further laminated on the magnetic layer placed in contact with the antiferromagnetic layer via a non-magnetic layer, the direction of the magnetization of the controlled magnetic layer can be detected as a change in the electric resistance. Since such a magnetic control device, in principle, responds to the electric field or magnetic field, it forms a magnetic component capable of detecting an electric signal or a magnetic signal. In this case, the direction of the magnetization basically is maintained until the next signal is detected, so that such a device also can form an apparatus. Thus, a magnetic control device capable of controlling the magnetization with voltage and magnetic component and a memory apparatus using the same are provided.
    • 一种磁控制装置,包括反铁磁层,与反铁磁层的一侧接触的磁性层和与反铁磁性层的另一侧接触的电极,其中磁性层的磁化方向由 施加在磁性层和电极之间的电压。 特别地,当通过非磁性层进一步层叠在与反铁磁性层接触的磁性层上的附加磁性层时,可以检测受控磁性层的磁化方向作为电阻的变化。 由于这种磁性控制装置原则上对电场或磁场进行响应,所以形成能够检测电信号或磁信号的磁性部件。 在这种情况下,磁化的方向基本上被维持直到检测到下一个信号,使得这样的装置也可以形成装置。 因此,提供了能够利用电压和磁性成分来控制磁化的磁控制装置和使用其的存储装置。
    • 5. 发明授权
    • Magnetoresistive device and magnetic component
    • 磁阻元件和磁性元件
    • US06555889B2
    • 2003-04-29
    • US10038083
    • 2002-01-03
    • Masayoshi HiramotoNozomu MatsukawaHiroshi SakakimaHideaki AdachiAkihiro Odagawa
    • Masayoshi HiramotoNozomu MatsukawaHiroshi SakakimaHideaki AdachiAkihiro Odagawa
    • H01L4300
    • B82Y25/00H01F10/3254H01L43/12Y10T428/26
    • A magnetoresistive device including a high-resistivity layer (13), a first magnetic layer (12) and a second magnetic layer (14), the first magnetic layer (12) and the second magnetic layer (14) being arranged so as to sandwich the high-resistivity layer (13), wherein the high-resistivity layer (13) is a barrier for passing tunneling electrons between the first magnetic layer (12) and the second magnetic layer (14), and contains at least one element LONC selected from oxygen, nitrogen and carbon; at least one layer A selected from the first magnetic layer (12) and the second magnetic layer (14) contains at least one metal element M selected from Fe, Ni and Co, and an element RCP different from the metal element M; and the element RCP combines with the element LONC more easily in terms of energy than the metal element M. Accordingly, a novel magnetoresistive device having a low junction resistance and a high MR can be obtained.
    • 一种磁电阻器件,包括高电阻率层(13),第一磁性层(12)和第二磁性层(14),第一磁性层(12)和第二磁性层(14) 所述高电阻率层(13),其中所述高电阻率层(13)是用于在所述第一磁性层(12)和所述第二磁性层(14)之间穿过隧道电子的势垒,并且包含至少一个选择的元素LONC 来自氧,氮和碳; 选自第一磁性层(12)和第二磁性层(14)的至少一层A含有至少一种选自Fe,Ni和Co的金属元素M和与金属元素M不同的元素RCP; 并且元件RCP在能量方面比金属元件M更容易地与元件LONC组合。因此,可以获得具有低结电阻和高MR的新型磁阻器件。
    • 8. 发明授权
    • Magnetic head comprising a multilayer magnetoresistive device and a yoke for introducing magnetic flux from a medium to the magnetoresistive device
    • 磁头包括多层磁阻器件和用于将磁通从介质引入到磁阻器件的磁轭
    • US06785100B2
    • 2004-08-31
    • US09829400
    • 2001-04-09
    • Masayoshi HiramotoNozomu MatsukawaAkihiro OdagawaKenji IijimaHiroshi Sakakima
    • Masayoshi HiramotoNozomu MatsukawaAkihiro OdagawaKenji IijimaHiroshi Sakakima
    • G11B539
    • B82Y25/00B82Y10/00G11B5/012G11B5/11G11B5/3903G11B5/3909G11B5/3916G11B5/3925G11B5/398G11B5/40G11B2005/3996
    • The present invention provides a magnetic head having improved characteristics, using a magnetoresistive device in which current flows across the film plane such as a TMR device. In a first magnetic head of the present invention, when the area of a non-magnetic layer is defined as a device cross-section area, and the area of a yoke is defined as a yoke area, viewed along the direction perpendicular to the surface of the substrate over which the yoke and the magnetoresistive device are formed, then the device cross-section area is not less than 30% of the yoke area, so that a resistance increase of the device cross-section area is suppressed. In a second magnetic head of the present invention, a magnetoresistive device is formed on a substrate, and a yoke is provided above a non-magnetic layer constituting the device. In a third magnetic head of the present invention, the free layer of the magnetoresistive device includes at least two magnetic films and at least one non-magnetic film that are laminated alternately, and the thickness of the non-magnetic layer is not less than 2 nm and not more than 10 nm, and magnetostatic coupling is dominant. In a fourth magnetic head of the present invention, a magnetic gap is provided adjacent to the magnetoresistive device and the magnetic films are coupled antiferromagnetically.
    • 本发明提供一种具有改进特性的磁头,其使用磁阻装置,其中电流流过诸如TMR装置的膜平面。 在本发明的第一磁头中,当非磁性层的面积被定义为器件横截面积,并且将磁轭的面积定义为磁轭面积时,沿垂直于表面的方向观察 在形成磁轭和磁阻装置的基板上,器件截面积不小于磁轭面积的30%,从而可以抑制器件截面积的电阻增加。 在本发明的第二磁头中,在基板上形成磁阻装置,在构成装置的非磁性层的上方设置磁轭。 在本发明的第三磁头中,磁阻装置的自由层包括至少两个磁性膜和交替层叠的至少一个非磁性膜,非磁性层的厚度不小于2 nm,不大于10nm,静磁耦合为主。 在本发明的第四磁头中,与磁阻装置相邻设置有磁隙,并且磁膜与反铁磁耦合。
    • 9. 发明申请
    • Magnetic head and apparatus for recording/reproducing magnetic information using the same
    • 用于使用其磁记录/再现磁信息的磁头和装置
    • US20050174700A1
    • 2005-08-11
    • US10896795
    • 2004-07-22
    • Masayoshi HiramotoNozomu MatsukawaAkihiro OdagawaKenji IijimaHiroshi Sakakima
    • Masayoshi HiramotoNozomu MatsukawaAkihiro OdagawaKenji IijimaHiroshi Sakakima
    • G11B5/012G11B5/11G11B5/39G11B5/40G11B5/147G11B5/33
    • B82Y25/00B82Y10/00G11B5/012G11B5/11G11B5/3903G11B5/3909G11B5/3916G11B5/3925G11B5/398G11B5/40G11B2005/3996
    • The present invention provides a magnetic head having improved characteristics, using a magnetoresistive device in which current flows across the film plane such as a TMR device. In a first magnetic head of the present invention, when the area of a non-magnetic layer is defined as a device cross-section area, and the area of a yoke is defined as a yoke area, viewed along the direction perpendicular to the surface of the substrate over which the yoke and the magnetoresistive device are formed, then the device cross-section area is not less than 30% of the yoke area, so that a resistance increase of the device cross-section area is suppressed. In a second magnetic head of the present invention, a magnetoresistive device is formed on a substrate, and a yoke is provided above a non-magnetic layer constituting the device. In a third magnetic head of the present invention, the free layer of the magnetoresistive device includes at least two magnetic films and at least one non-magnetic film that are laminated alternately, and the thickness of the non-magnetic layer is not less than 2 nm and not more than 10 nm, and magnetostatic coupling is dominant. In a fourth magnetic head of the present invention, a magnetic gap is provided adjacent to the magnetoresistive device and the magnetic films are coupled antiferromagnetically.
    • 本发明提供一种具有改进特性的磁头,其使用磁阻装置,其中电流流过诸如TMR装置的膜平面。 在本发明的第一磁头中,当非磁性层的面积被定义为器件横截面积,并且将磁轭的面积定义为磁轭面积时,沿垂直于表面的方向观察 在形成磁轭和磁阻装置的基板上,器件截面积不小于磁轭面积的30%,从而可以抑制器件截面积的电阻增加。 在本发明的第二磁头中,在基板上形成磁阻装置,在构成装置的非磁性层的上方设置磁轭。 在本发明的第三磁头中,磁阻装置的自由层包括至少两个磁性膜和交替层叠的至少一个非磁性膜,非磁性层的厚度不小于2 nm,不大于10nm,静磁耦合为主。 在本发明的第四磁头中,与磁阻装置相邻设置有磁隙,并且磁膜与反铁磁耦合。