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    • 3. 发明授权
    • Magnetic disk device having mechanism for detecting projections on recording medium
    • 具有用于检测记录介质上的投影的机构的磁盘装置
    • US08144412B2
    • 2012-03-27
    • US12591562
    • 2009-11-24
    • Hiroshi Kiyono
    • Hiroshi Kiyono
    • G11B5/02G11B27/36G11B5/127G11B5/60G11B15/64G11B17/32G11B21/20
    • G11B5/40G11B5/6005
    • A thin film magnetic head includes a medium projection detection mechanism that detects a projection on the surface of a recording medium. The medium projection detection mechanism has a discharging electrode, a capacitor, and an input line and an output line that are connected to the discharging electrode. The discharging electrode is configured to receive a voltage applied through the input line, and the capacitor is configured to store electric charge by the applied voltage. The output line is connected to a projection detection processing system and is connected to the charging electrode and the projection detection processing system to detect the location of the projection that is a detection target by detecting voltage change that is caused by discharging between the discharging electrode and the projection when the projection is detected.
    • 薄膜磁头包括检测记录介质表面上的突起的介质投影检测机构。 介质投影检测机构具有连接到放电电极的放电电极,电容器,输入线和输出线。 放电电极被配置为接收通过输入线施加的电压,并且电容器被配置为通过施加的电压来存储电荷。 输出线连接到投影检测处理系统,并连接到充电电极和投影检测处理系统,通过检测由放电电极和放电电极之间的放电引起的电压变化来检测作为检测对象的投影的位置 检测投影时的投影。
    • 4. 发明授权
    • Thin-film magnetic head comprising a magneto-resistive effect device of a CPP structure and having a shunting layer
    • 薄膜磁头包括CPP结构的磁阻效应器件并具有分流层
    • US07894168B2
    • 2011-02-22
    • US11846170
    • 2007-08-28
    • Hiroshi KiyonoTetsuya Kuwashima
    • Hiroshi KiyonoTetsuya Kuwashima
    • G11B5/39
    • G11B5/398B82Y25/00G01R33/093
    • The invention provides a thin-film magnetic head having a magneto-resistive effect device of the CPP (current perpendicular to plane) structure comprising a multilayer film in which a fixed magnetization layer, a nonmagnetic layer and a free layer are stacked together in order. The fixed magnetization layer, nonmagnetic layer and free layer extend away from an air bearing surface that is a plane in opposition to a medium, the length of the fixed magnetization layer in a depth direction normal to said air bearing surface is greater than the length of the free layer in the depth direction. A shunt layer for shunting the sense current is located at a farther distance in the depth direction than the free layer, and the shunt layer is separated from the free layer by a constant gap in the depth direction.
    • 本发明提供一种具有CPP(电流垂直于平面)结构的磁阻效应器件的薄膜磁头,其包括多层膜,其中固定磁化层,非磁性层和自由层按顺序堆叠在一起。 固定磁化层,非磁性层和自由层远离与介质相反的平面的空气轴承表面延伸,固定磁化层在垂直于所述空气轴承表面的深度方向上的长度大于 自由层在深度方向。 用于分流感测电流的并联层位于深度方向上比自由层更远的距离,并且分流层在深度方向上通过恒定的间隙与自由层分离。
    • 5. 发明申请
    • THIN-FILM MAGNETIC HEAD HAVING CPP STRUCTURE MAGNETO-RESISTIVE EFFECT DEVICE
    • 具有CPP结构磁电阻效应器件的薄膜磁头
    • US20090059436A1
    • 2009-03-05
    • US11846170
    • 2007-08-28
    • Hiroshi KiyonoTetsuya Kuwashima
    • Hiroshi KiyonoTetsuya Kuwashima
    • G11B5/33
    • G11B5/398B82Y25/00G01R33/093
    • The invention provides a thin-film magnetic head having a magneto-resistive effect device of the CPP (current perpendicular to plane) structure comprising a multilayer film in which a fixed magnetization layer, a nonmagnetic layer and a free layer are stacked together in order. The fixed magnetization layer, nonmagnetic layer and free layer extend rearward from an air bearing surface that is a plane in opposition to a medium, the length of the depth-wise side of the fixed magnetization layer is longer than that of the free layer, and a shunt layer for shunting a sense current is formed more on the depth-wise side of, and kept constantly away from, the free layer. There are thus much more favorable advantages obtained: even when device size is further reduced and narrowed, degradation of frequency characteristics is hold back, any increase in the thermal magnetic noise is stayed off, and performance fluctuations are minimized.
    • 本发明提供一种具有CPP(电流垂直于平面)结构的磁阻效应器件的薄膜磁头,其包括多层膜,其中固定磁化层,非磁性层和自由层按顺序堆叠在一起。 固定磁化层,非磁性层和自由层从作为与介质相反的平面的空气轴承表面向后延伸,固定磁化层的深度方向的长度比自由层的长度长, 用于分流感测电流的并联层更多地形成在自由层的深度方面并且保持不断地远离自由层。 因此,获得了更多有利的优点:即使当器件尺寸进一步减小和变窄时,频率特性的劣化被阻止,热磁噪声的任何增加都将被停止,并且性能波动最小化。
    • 9. 发明授权
    • Method of estimating curie temperature distribution in a magnetic recording layer
    • 估计磁记录层中居里温度分布的方法
    • US08666692B2
    • 2014-03-04
    • US13044976
    • 2011-03-10
    • Tomohito MizunoKoji ShimazawaHiroshi Kiyono
    • Tomohito MizunoKoji ShimazawaHiroshi Kiyono
    • G06F17/18
    • G11B5/64G11B2005/0021
    • In exemplary embodiments, first and second parameters are obtained for each of different temperatures of the magnetic recording layer. The absolute value of the first parameter for each magnetic grain has a minimum value when the temperature of each magnetic grain reaches a predetermined temperature that increases as the Curie temperature increases, and decreases as the Curie temperature decreases. The second parameter is related to the standard deviation of the coercivity distribution of the magnetic grains divided by the coercivity of the magnetic recording layer. The method calculates a value where the absolute measurement value of the first parameter has a minimum value and the temperature of the magnetic recording layer at which the standard deviation of the coercivity distribution of the magnetic grains divided by the coercivity of the magnetic recording layer has a maximum value.
    • 在示例性实施例中,针对磁记录层的不同温度的每一个获得第一和第二参数。 当每个磁性颗粒的温度达到随着居里温度升高而增加的预定温度时,每个磁性颗粒的第一参数的绝对值具有最小值,并且随着居里温度降低而降低。 第二参数与磁性颗粒的矫顽力分布的标准偏差除以磁记录层的矫顽力相关。 该方法计算第一参数的绝对测量值具有最小值的值,并且磁记录层的矫顽力的矫顽力分布的标准偏差除以磁记录层的矫顽力的标准偏差为 最大值。
    • 10. 发明申请
    • Magnetic disk device having mechanism for detecting projections on recording medium
    • 具有用于检测记录介质上的投影的机构的磁盘装置
    • US20110122533A1
    • 2011-05-26
    • US12591562
    • 2009-11-24
    • Hiroshi Kiyono
    • Hiroshi Kiyono
    • G11B5/56G11B15/60G11B21/16
    • G11B5/40G11B5/6005
    • A thin film magnetic head includes a medium projection detection mechanism that detects a projection on the surface of a recording medium. The medium projection detection mechanism has a discharging electrode, a capacitor, and an input line and an output line that are connected to the discharging electrode. The discharging electrode is configured to receive a voltage applied through the input line, and the capacitor is configured to store electric charge by the applied voltage. The output line is connected to a projection detection processing system and is connected to the charging electrode and the projection detection processing system to detect the location of the projection that is a detection target by detecting voltage change that is caused by discharging between the discharging electrode and the projection when the projection is detected.
    • 薄膜磁头包括检测记录介质表面上的突起的介质投影检测机构。 介质投影检测机构具有连接到放电电极的放电电极,电容器,输入线和输出线。 放电电极被配置为接收通过输入线施加的电压,并且电容器被配置为通过施加的电压来存储电荷。 输出线连接到投影检测处理系统,并连接到充电电极和投影检测处理系统,通过检测由放电电极和放电电极之间的放电引起的电压变化来检测作为检测对象的投影的位置 检测投影时的投影。