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    • 1. 发明授权
    • Perpendicular magnetic recording head and method for manufacturing the same
    • 垂直磁记录头及其制造方法
    • US08064161B2
    • 2011-11-22
    • US12231246
    • 2008-08-28
    • Kazue KudoHiromi ShiinaGen OikawaYohji MaruyamaNoriyuki Saiki
    • Kazue KudoHiromi ShiinaGen OikawaYohji MaruyamaNoriyuki Saiki
    • H04R31/00G11B5/147
    • G11B5/3146G11B5/1278G11B5/315G11B5/3163Y10T29/49044Y10T29/4906
    • Embodiments of the present invention help to provide a perpendicular magnetic recording head capable of writing a signal in a track having a small width. According to one embodiment, a perpendicular magnetic recording head includes an auxiliary pole, a main pole, a yoke, a coil, a first soft magnetic film and a second soft magnetic film. The yoke is in contact with the main pole. The coil is wound around a magnetic circuit composed of the auxiliary and main poles and the yoke. The first soft magnetic film is provided on both sides of the main pole with a non-magnetic film provided between the first soft magnetic film and the main pole. The second soft magnetic film is provided on the trailing side of the main pole with the non-magnetic film provided between the second soft magnetic film and the main pole. The first and second soft magnetic films are two types of plated magnetic films. One type of the plated magnetic films have respective thicknesses of 0.5 nm to 20 nm and respective body centered cubic lattice crystal structures. The other types of the plated magnetic films have respective thicknesses of 0.5 nm to 20 nm and respective face centered cubic lattice crystal structures. The two types of the plated magnetic films are alternately laminated with four or more layers. This can achieve the magnetic disk drive capable of reducing a possibility to erroneously delete a signal after the signal being written and preventing degradation of characteristics of a high frequency signal.
    • 本发明的实施例有助于提供一种能够在具有小宽度的轨迹中写入信号的垂直磁记录头。 根据一个实施例,垂直磁记录头包括辅助极,主极,磁轭,线圈,第一软磁膜和第二软磁膜。 轭与主极接触。 线圈缠绕在由辅助和主极和轭构成的磁路上。 第一软磁膜设置在主极的两侧,设置在第一软磁膜和主极之间的非磁性膜。 第二软磁膜设置在主极的后侧,设置在第二软磁膜和主极之间的非磁性膜。 第一和第二软磁膜是两种类型的镀覆磁性膜。 一种类型的电镀磁性膜具有0.5nm至20nm的各自的厚度和相应的体心立方晶格结构。 其他类型的镀膜磁性膜具有0.5nm至20nm的各自的厚度和各自的面心立方晶格结构。 两种类型的镀覆磁性膜交替地层压有四层或更多层。 这可以实现能够降低信号被写入之后错误地删除信号的可能性的磁盘驱动器,并且防止高频信号的特性的劣化。
    • 2. 发明申请
    • Perpendicular magnetic recording head and method for manufacturing the same
    • 垂直磁记录头及其制造方法
    • US20090059427A1
    • 2009-03-05
    • US12231246
    • 2008-08-28
    • Kazue KudoHiromi ShiinaGen OikawaYoji MaruyamaNoriyuki Saiki
    • Kazue KudoHiromi ShiinaGen OikawaYoji MaruyamaNoriyuki Saiki
    • G11B5/127
    • G11B5/3146G11B5/1278G11B5/315G11B5/3163Y10T29/49044Y10T29/4906
    • Embodiments of the present invention help to provide a perpendicular magnetic recording head capable of writing a signal in a track having a small width. According to one embodiment, a perpendicular magnetic recording head includes an auxiliary pole, a main pole, a yoke, a coil, a first soft magnetic film and a second soft magnetic film. The yoke is in contact with the main pole. The coil is wound around a magnetic circuit composed of the auxiliary and main poles and the yoke. The first soft magnetic film is provided on both sides of the main pole with a non-magnetic film provided between the first soft magnetic film and the main pole. The second soft magnetic film is provided on the trailing side of the main pole with the non-magnetic film provided between the second soft magnetic film and the main pole. The first and second soft magnetic films are two types of plated magnetic films. One type of the plated magnetic films have respective thicknesses of 0.5 nm to 20 nm and respective body centered cubic lattice crystal structures. The other types of the plated magnetic films have respective thicknesses of 0.5 nm to 20 nm and respective face centered cubic lattice crystal structures. The two types of the plated magnetic films are alternately laminated with four or more layers. This can achieve the magnetic disk drive capable of reducing a possibility to erroneously delete a signal after the signal being written and preventing degradation of characteristics of a high frequency signal.
    • 本发明的实施例有助于提供一种能够在具有小宽度的轨迹中写入信号的垂直磁记录头。 根据一个实施例,垂直磁记录头包括辅助极,主极,磁轭,线圈,第一软磁膜和第二软磁膜。 轭与主极接触。 线圈缠绕在由辅助和主极和轭构成的磁路上。 第一软磁膜设置在主极的两侧,设置在第一软磁膜和主极之间的非磁性膜。 第二软磁膜设置在主极的后侧,设置在第二软磁膜和主极之间的非磁性膜。 第一和第二软磁膜是两种类型的镀覆磁性膜。 一种类型的电镀磁性膜具有0.5nm至20nm的各自的厚度和相应的体心立方晶格结构。 其他类型的镀膜磁性膜具有0.5nm至20nm的各自的厚度和各自的面心立方晶格结构。 两种类型的镀覆磁性膜交替地层压有四层或更多层。 这可以实现能够降低信号被写入之后错误地删除信号的可能性的磁盘驱动器,并且防止高频信号的特性的劣化。
    • 3. 发明申请
    • Magnetic film, manufacturing method thereof and thin film magnetic head
    • 磁膜,其制造方法和薄膜磁头
    • US20080075977A1
    • 2008-03-27
    • US11820598
    • 2007-06-19
    • Kazue KudoGen OikawaYohji MaruyamaNoriyuki SaikiHiromi Shiina
    • Kazue KudoGen OikawaYohji MaruyamaNoriyuki SaikiHiromi Shiina
    • G11B5/33H04R31/00
    • G11B5/3116G11B5/1278G11B5/147G11B5/313Y10T29/49032Y10T428/115
    • Embodiments of the present invention provide a magnetic disk drive capable of allowing higher data transfer rates and higher recording densities. According to one embodiment, an upper magnetic core and lower magnetic core comprise a multi-layered magnetic film formed by alternately stacking a face-centered cubic (fcc) crystalline magnetic thin layer and a body-centered cubic (bcc) crystalline magnetic thin layer by plating. The plating bath is such that the temperature is about 30±1° C., pH is about 2.0−1.0 to 2.0+0.5, metal ion concentrations are about 5 to 25 (g/l) for Ni2+ and 5 to 15 (g/l) for Fe2+, saccharin sodium concentration is about 1.5±1.0 (g/l), sodium chloride concentration is about 25±5 (g/l), and boric acid concentration is about 25±5 (g/l). Since each layer's crystal structure is different from that of its adjacent lower layer, epitaxial growth is broken within each layer. Thus, since crystal grains are reduced in size, it is possible to lessen the decrease of the permeability μ at higher frequencies.
    • 本发明的实施例提供一种能够允许更高数据传输速率和更高记录密度的磁盘驱动器。 根据一个实施例,上磁芯和下磁芯包括通过交替地将面心立方(fcc)晶体磁性薄层和体心立方(bcc)结晶磁性薄层交替堆叠而形成的多层磁性膜, 电镀。 电镀浴温度为约30±1℃,pH为约2.0-1.0至2.0 + 0.5,Ni2 +和5至15(g / l)的金属离子浓度为约5至25(g / l) l)对于Fe2 +,糖精钠浓度约为1.5±1.0(g / l),氯化钠浓度约为25±5(g / l),硼酸浓度约为25±5(g / l)。 由于每个层的晶体结构与其相邻的下层的晶体结构不同,所以在每个层内外延生长被破坏。 因此,由于晶粒尺寸减小,因此能够降低高频率下的磁导率μμ的降低。
    • 5. 发明申请
    • Thin film magnetic head and manufacturing method thereof
    • 薄膜磁头及其制造方法
    • US20050036236A1
    • 2005-02-17
    • US10894723
    • 2004-07-19
    • Gen OikawaKazue KudoYouji MaruyamaNoriyuki SaikiHiromi Shiina
    • Gen OikawaKazue KudoYouji MaruyamaNoriyuki SaikiHiromi Shiina
    • G11B5/147G11B5/31
    • G11B5/3116G11B5/147Y10T29/49032
    • Embodiments of the invention provide a lustrous and uniform plating film having high-performance magnetic characteristics and a thin film magnetic head usable in a high frequency recording band by using the plating film of the invention at a magnetic pole portion. Plating is performed in a plating bath at a low pH of about 1.5 to 2.3. The accuracy of pH control is improved. A magnetic film with the addition of a high resistive metal such as Cr or Mo is formed under the plating condition. Further, the magnetic characteristic is improved by applying a heat treatment to the plating film in a magnetic field, according to specific embodiments of the present invention. A plating film with brightness and uniformity having high saturation magnetic flux density can be formed by reducing the hysteresis loss and the eddy current loss as the magnetic characteristics by the above techniques.
    • 本发明的实施例通过使用本发明的镀膜在磁极部分提供具有高性能磁特性的光泽均匀的镀膜和可用于高频记录带的薄膜磁头。 电镀在约1.5至2.3的低pH值的电镀浴中进行。 pH控制的准确性得到提高。 在电镀条件下形成具有添加诸如Cr或Mo的高电阻金属的磁性膜。 此外,根据本发明的具体实施方式,通过在磁场中对镀膜进行热处理来提高磁特性。 通过上述技术,可以通过减小作为磁特性的磁滞损耗和涡流损耗来形成具有高饱和磁通密度的亮度和均匀性的电镀膜。
    • 7. 发明授权
    • Thin film magnetic head with high Fe alloy plating film and manufacturing method thereof
    • 具有高Fe合金镀膜的薄膜磁头及其制造方法
    • US07589937B2
    • 2009-09-15
    • US10894723
    • 2004-07-19
    • Gen OikawaKazue KudoYouji MaruyamaNoriyuki SaikiHiromi Shiina
    • Gen OikawaKazue KudoYouji MaruyamaNoriyuki SaikiHiromi Shiina
    • G11B5/127
    • G11B5/3116G11B5/147Y10T29/49032
    • Embodiments of the invention provide a lustrous and uniform plating film having high-performance magnetic characteristics and a thin film magnetic head usable in a high frequency recording band by using the plating film of the invention at a magnetic pole portion. Plating is performed in a plating bath at a low pH of about 1.5 to 2.3. The accuracy of pH control is improved. A magnetic film with the addition of a high resistive metal such as Cr or Mo is formed under the plating condition. Further, the magnetic characteristic is improved by applying a heat treatment to the plating film in a magnetic field, according to specific embodiments of the present invention. A plating film with brightness and uniformity having high saturation magnetic flux density can be formed by reducing the hysteresis loss and the eddy current loss as the magnetic characteristics by the above techniques.
    • 本发明的实施例通过使用本发明的镀膜在磁极部分提供具有高性能磁特性的光泽均匀的镀膜和可用于高频记录带的薄膜磁头。 电镀在约1.5至2.3的低pH值的电镀浴中进行。 pH控制的准确性得到提高。 在电镀条件下形成具有添加诸如Cr或Mo的高电阻金属的磁性膜。 此外,根据本发明的具体实施方式,通过在磁场中对镀膜进行热处理来提高磁特性。 通过上述技术,可以通过减小作为磁特性的磁滞损耗和涡流损耗来形成具有高饱和磁通密度的亮度和均匀性的电镀膜。