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    • 1. 发明授权
    • Differential magnetoresistive magnetic head
    • 差分磁阻磁头
    • US08174799B2
    • 2012-05-08
    • US12218860
    • 2008-07-17
    • Hiroyuki HoshiyaKenichi MeguroKatsumi HoshinoYou SatoHiroyuki KatadaKazuhiro Nakamoto
    • Hiroyuki HoshiyaKenichi MeguroKatsumi HoshinoYou SatoHiroyuki KatadaKazuhiro Nakamoto
    • G11B5/39
    • B82Y25/00B82Y10/00G11B5/3929G11B2005/3996
    • Embodiments of the present invention help to provide a single element type differential magnetoresistive magnetic head capable of achieving high resolution and high manufacturing stability. According to one embodiment, a magnetoresistive layered film is formed by stacking an underlayer film, an antiferromagnetic film, a ferromagnetic pinned layer, a non-magnetic intermediate layer, a soft magnetic free layer, a long distance antiparallel coupling layered film, and a differential soft magnetic free layer. The long distance antiparallel coupling layered film exchange-couples the soft magnetic free layer and the differential soft magnetic free layer in an antiparallel state with a distance of about 3 nanometers through 20 nanometers. By manufacturing the single element type differential magnetoresistive magnetic head using the magnetoresistive layered film, it becomes possible to achieve the high resolution and the high manufacturing stability without spoiling the GMR effect.
    • 本发明的实施例有助于提供能够实现高分辨率和高制造稳定性的单元型差分磁阻磁头。 根据一个实施例,通过堆叠下层膜,反铁磁性膜,铁磁性钉扎层,非磁性中间层,软磁性自由层,长距离反向平行耦合层叠膜和差动层叠膜形成磁阻层叠膜 软磁自由层。 长距离反平行耦合分层膜将软磁自由层和差分软磁自由层以约3纳米至20纳米的距离反平行状态进行交换耦合。 通过使用磁阻层叠膜制造单元型差分磁阻磁头,可以实现高分辨率和高制造稳定性而不破坏GMR效应。
    • 2. 发明申请
    • Differential magnetoresistive magnetic head
    • 差分磁阻磁头
    • US20090034135A1
    • 2009-02-05
    • US12218860
    • 2008-07-17
    • Hiroyuki HoshiyaKenichi MeguroKatsumi HoshinoYo SatoHiroyuki KatadaKazuhiro Nakamoto
    • Hiroyuki HoshiyaKenichi MeguroKatsumi HoshinoYo SatoHiroyuki KatadaKazuhiro Nakamoto
    • G11B5/33
    • B82Y25/00B82Y10/00G11B5/3929G11B2005/3996
    • Embodiments of the present invention help to provide a single element type differential magnetoresistive magnetic head capable of achieving high resolution and high manufacturing stability. According to one embodiment, a magnetoresistive layered film is formed by stacking an underlayer film, an antiferromagnetic film, a ferromagnetic pinned layer, a non-magnetic intermediate layer, a soft magnetic free layer, a long distance antiparallel coupling layered film, and a differential soft magnetic free layer. The long distance antiparallel coupling layered film exchange-couples the soft magnetic free layer and the differential soft magnetic free layer in an antiparallel state with a distance of about 3 nanometers through 20 nanometers. By manufacturing the single element type differential magnetoresistive magnetic head using the magnetoresistive layered film, it becomes possible to achieve the high resolution and the high manufacturing stability without spoiling the GMR effect.
    • 本发明的实施例有助于提供能够实现高分辨率和高制造稳定性的单元型差分磁阻磁头。 根据一个实施例,通过堆叠下层膜,反铁磁性膜,铁磁性钉扎层,非磁性中间层,软磁性自由层,长距离反向平行耦合层叠膜和差动层叠膜形成磁阻层叠膜 软磁自由层。 长距离反平行耦合分层膜将软磁自由层和差分软磁自由层以约3纳米至20纳米的距离反平行状态进行交换耦合。 通过使用磁阻层叠膜制造单元型差分磁阻磁头,可以实现高分辨率和高制造稳定性而不破坏GMR效应。
    • 6. 发明授权
    • Magnetoresistive head using longitudinal biasing method with 90-degree magnetic interlayer coupling and manufacturing method thereof
    • 磁阻头使用90度磁性层间耦合的纵向偏置方法及其制造方法
    • US07440241B2
    • 2008-10-21
    • US11243298
    • 2005-10-03
    • Katsumi HoshinoHiroyuki HoshiyaHiroyuki KatadaKenichi Meguro
    • Katsumi HoshinoHiroyuki HoshiyaHiroyuki KatadaKenichi Meguro
    • G11B5/39
    • G11B5/39
    • A magnetoresistive head and a fabricating method thereof accomplishing high read sensitivity and excellent linear response with low noise even if track width narrowing makes progress are provided. In one embodiment, using a magnetoresistive film having a laminated body of a pinned layer/an intermediate layer/a free layer/a separate layer/a first ferromagnetic layer/a 90-degree magnetic interlayer coupling layer/a second ferromagnetic layer, and the magnetizations of both the pinned layer and the second ferromagnetic layer are fixed nearly in the direction along the sensor height. On the other hand, the magnetizations of the first ferromagnetic layer and the second ferromagnetic layer have an interlayer interaction being directed in nearly orthogonal directions to each other through the 90-degree magnetic interlayer coupling layer, and the first ferromagnetic layer has a magnetization directed nearly in the direction along the track width in zero external magnetic field. According to this, the first ferromagnetic layer applies a longitudinal biasing field to the free layer nearly in the direction along the track width.
    • 磁阻头及其制造方法即使进行轨道宽度变窄也能实现高读取灵敏度和低噪音的良好线性响应。 在一个实施例中,使用具有钉扎层/中间层/自由层/分离层/第一铁磁层/ 90度磁性层间结合层/第二铁磁层的层叠体的磁阻膜, 被钉扎层和第二铁磁层两者的磁化几乎沿着传感器高度的方向固定。 另一方面,第一铁磁层和第二铁磁层的磁化通过90度的磁性层间结合层彼此在几乎正交的方向上相互作用,并且第一铁磁层的磁化强度几近 沿着磁道宽度方向在零外部磁场中。 据此,第一铁磁层几乎沿着轨道宽度的方向向自由层施加纵向偏置场。
    • 7. 发明申请
    • Magnetoresistive head using longitudinal biasing method with 90-degree magnetic interlayer coupling and manufacturing method thereof
    • 磁阻头使用90度磁性层间耦合的纵向偏置方法及其制造方法
    • US20060103991A1
    • 2006-05-18
    • US11243298
    • 2005-10-03
    • Katsumi HoshinoHiroyuki HoshiyaHiroyuki KatadaKenichi Meguro
    • Katsumi HoshinoHiroyuki HoshiyaHiroyuki KatadaKenichi Meguro
    • G11B5/127G11B5/33
    • G11B5/39
    • A magnetoresistive head and a fabricating method thereof accomplishing high read sensitivity and excellent linear response with low noise even if track width narrowing makes progress are provided. In one embodiment, using a magnetoresistive film having a laminated body of a pinned layer/an intermediate layer/a free layer/a separate layer/a first ferromagnetic layer/a 90-degree magnetic interlayer coupling layer/a second ferromagnetic layer, and the magnetizations of both the pinned layer and the second ferromagnetic layer are fixed nearly in the direction along the sensor height. On the other hand, the magnetizations of the first ferromagnetic layer and the second ferromagnetic layer have an interlayer interaction being directed in nearly orthogonal directions to each other through the 90-degree magnetic interlayer coupling layer, and the first ferromagnetic layer has a magnetization directed nearly in the direction along the track width in zero external magnetic field. According to this, the first ferromagnetic layer applies a longitudinal biasing field to the free layer nearly in the direction along the track width.
    • 磁阻头及其制造方法即使进行轨道宽度变窄也能实现高读取灵敏度和低噪音的良好线性响应。 在一个实施例中,使用具有钉扎层/中间层/自由层/分离层/第一铁磁层/ 90度磁性层间结合层/第二铁磁层的层叠体的磁阻膜, 被钉扎层和第二铁磁层两者的磁化几乎沿着传感器高度的方向固定。 另一方面,第一铁磁层和第二铁磁层的磁化通过90度的磁性层间结合层彼此在几乎正交的方向上相互作用,并且第一铁磁层的磁化强度几近 沿着磁道宽度方向在零外部磁场中。 据此,第一铁磁层几乎沿着轨道宽度的方向向自由层施加纵向偏置场。