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    • 5. 发明申请
    • Exchange-coupling film incorporating stacked antiferromagnetic layer and pinned layer, and magnetoresistive element including the exchange-coupling film
    • 包含堆叠反铁磁层和被钉扎层的交换耦合膜,以及包括交换耦合膜的磁阻元件
    • US20080037184A1
    • 2008-02-14
    • US11806823
    • 2007-06-04
    • Takumi UesugiSatoshi Miura
    • Takumi UesugiSatoshi Miura
    • G11B5/127
    • G01R33/093B82Y25/00G11B5/3906H01F10/16H01F10/3272H01L43/08
    • An exchange-coupling film incorporates an antiferromagnetic layer and a pinned layer. The pinned layer includes a first ferromagnetic layer, a second ferromagnetic layer, a third ferromagnetic layer, a nonmagnetic middle layer, and a fourth ferromagnetic layer that are disposed in this order, the first ferromagnetic layer being closest to the antiferromagnetic layer. The first ferromagnetic layer is made of a ferromagnetic material and has a face-centered cubic structure. The second ferromagnetic layer is made of only iron or an alloy containing x atomic % cobalt and (100−x) atomic % iron, wherein x is greater than zero and smaller than or equal to 60. The third ferromagnetic layer is made of an alloy containing y atomic % cobalt and (100−y) atomic % iron, wherein y is within a range of 65 to 80 inclusive. The antiferromagnetic layer and the first ferromagnetic layer are exchange-coupled to each other. The third and fourth ferromagnetic layers are antiferromagnetically coupled to each other.
    • 交换耦合膜包含反铁磁层和钉扎层。 被钉扎层包括第一铁磁层,第二铁磁层,第三铁磁层,非磁性中间层和第四铁磁层,第一铁磁层最靠近反铁磁层。 第一铁磁层由铁磁材料制成并具有面心立方结构。 第二铁磁层仅由铁或含有x原子%钴和(100-x)原子%铁的合金制成,其中x大于零且小于或等于60.第三铁磁层由合金 含有原子%钴和(100-y)原子%铁,其中y在65〜80的范围内。 反铁磁层和第一铁磁层彼此交换耦合。 第三和第四铁磁层彼此反铁磁耦合。
    • 9. 发明申请
    • Magnetic field detecting element having a tunnel barrier formed on an amorphous layer
    • 具有在非晶层上形成的隧道势垒的磁场检测元件
    • US20070014053A1
    • 2007-01-18
    • US11476724
    • 2006-06-29
    • Takumi UesugiSatoshi Miura
    • Takumi UesugiSatoshi Miura
    • G11B5/33G11B5/127
    • G11B5/3909B82Y10/00G01R33/06G11B5/3903H01F10/132H01F10/3204H01F10/3254H01F10/3281H01L43/08
    • A magnetic field detecting element has a lower layer, a tunnel barrier layer, and an upper layer, wherein the lower layer, the tunnel barrier layer, and the upper layer are stacked adjacent to each other in this order, wherein a magnetization direction of either the lower layer or the upper layer is fixed relative to an external magnetic field, and a magnetization direction of the other can be changed in accordance with the external magnetic field such that a magnitude of the external magnetic field is detected based on a change in resistance relative to a sense current, the change in resistance depending on the external magnetic field, wherein the lower layer comprises: a first layer that is formed in an amorphous state; and a second layer that is made of cobalt, iron, nickel or a combination thereof and that is formed in a substantially amorphous state, the second layer being adjacent to the first layer and the tunnel barrier layer on both sides.
    • 磁场检测元件具有下层,隧道势垒层和上层,其中下层,隧道势垒层和上层依次堆叠在一起,其中两者之一的磁化方向 下层或上层相对于外部磁场固定,并且可以根据外部磁场改变另一个的磁化方向,使得基于电阻的变化来检测外部磁场的大小 相对于感测电流,根据外部磁场的电阻变化,其中所述下层包括:形成为非晶态的第一层; 以及由钴,铁,镍或其组合制成的第二层,其形成为基本非晶态,所述第二层与所述第一层相邻,并且所述隧道势垒层位于两侧。