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    ION IMPLANTING APPARATUS
    1.
    发明申请
    ION IMPLANTING APPARATUS 有权
    离子植入装置

    公开(公告)号:US20110248182A1

    公开(公告)日:2011-10-13

    申请号:US13096280

    申请日:2011-04-28

    Applicant: Tsutomu Nishihashi Kazuhiro Watanabe Tadashi Morita Kenji Sato Tsutomu Tanaka Takuya Uzumaki

    Inventor: Tsutomu Nishihashi Kazuhiro Watanabe Tadashi Morita Kenji Sato Tsutomu Tanaka Takuya Uzumaki

    IPC: G21K5/08

    CPC classification number: G11B5/85 H01J37/244 H01J37/3171 H01J2237/24585 H01J2237/31703

    Abstract: An ion implanting apparatus is provided, which can accurately measure a quantity of atoms that are implanted. The ion implanting apparatus according to the present invention has an object to be measured, and the object to be measured is arranged in an irradiating range in which ions are irradiated. When atoms are implanted into an object to be processed by irradiating ions of a processing gas and neutralized particles thereof, the object to be measured is heated through the irradiation with the processing gas ions and the neutralized particles. A control unit determines a quantity of the atoms that are implanted into the object to be processed from the temperature of the object to be measured.

    Abstract translation: 提供离子注入装置,其可以精确地测量植入的原子的量。 根据本发明的离子注入装置具有待测量的目的,并且被测量对象被布置在照射离子的照射范围内。 当通过照射处理气体的离子和其中和颗粒将原子注入待处理物体时,通过用处理气体离子和中和的颗粒的照射来加热被测量物体。 控制单元根据被测量物体的温度确定被植入物体的原子数量。

    MAGNETIC RECORDING MEDIUM, MAGNETIC RECORDING/REPRODUCTION DEVICE, AND METHOD OF MANUFACTURING MAGNETIC RECORDING MEDIUM
    2.
    发明申请
    MAGNETIC RECORDING MEDIUM, MAGNETIC RECORDING/REPRODUCTION DEVICE, AND METHOD OF MANUFACTURING MAGNETIC RECORDING MEDIUM 审中-公开
    磁记录介质,磁记录/再现装置和制造磁记录介质的方法

    公开(公告)号:US20090244785A1

    公开(公告)日:2009-10-01

    申请号:US12346210

    申请日:2008-12-30

    Applicant: Hideyuki Kikuchi Kenji Sato Takuya Uzumaki

    Inventor: Hideyuki Kikuchi Kenji Sato Takuya Uzumaki

    IPC: G11B5/56 G11B5/82 B44C1/22

    CPC classification number: G11B5/82 B82Y10/00 G11B5/667 G11B5/743 G11B5/746 G11B5/855

    Abstract: A magnetic recording medium suppresses effectively side erasure even when recording dot intervals are reduced. Magnetic dots and a soft magnetic layer are provided on a soft magnetic underlayer with a nonmagnetic layer intervening, so that magnetic dots are separated by the soft magnetic layer, and consequently leakage flux during recording to magnetic dots is absorbed by the soft magnetic layer, side erasure can be suppressed, and moreover the soft magnetic underlayer and soft magnetic layer are separated, so that an influence on recording/reproduction characteristics can be prevented.

    Abstract translation: 即使当记录点间隔减小时,磁记录介质也有效地抑制了侧擦除。 在具有中间非磁性层的软磁性底层上提供磁性点和软磁性层,使得磁性点被软磁性层分离,因此在记录到磁性点时的漏磁通被软磁性层吸收 可以抑制擦除,而且软磁性层和软磁性层被分离,从而可以防止对记录/再现特性的影响。

    Magnetic recording medium for perpendicular recording
    3.
    发明授权
    Magnetic recording medium for perpendicular recording 失效
    用于垂直记录的磁记录介质

    公开(公告)号:US07525762B2

    公开(公告)日:2009-04-28

    申请号:US10718202

    申请日:2003-11-20

    Applicant: Ryosaku Inamura Kazumasa Shimoda Toshio Sugimoto Takuya Uzumaki

    Inventor: Ryosaku Inamura Kazumasa Shimoda Toshio Sugimoto Takuya Uzumaki

    IPC: G11B5/667

    CPC classification number: G11B5/7325 G11B5/00 G11B5/012 G11B5/02 G11B5/64 G11B5/66 G11B5/82 G11B2005/0002 G11B2005/0021 G11B2005/0029

    Abstract: A perpendicular magnetic recording medium at least comprises a perpendicular magnetic recording layer and a backing layer backing the perpendicular magnetic recording layer. The backing layer has an in-plane magnetization and is formed of a ferrimagnetic material having a compensation temperature in the vicinity of a recording/reproducing temperature in which reproducing of magnetic information is made from the perpendicular magnetic recording layer. A magnetic storage apparatus for recording and reproducing magnetic information using the perpendicular magnetic recording medium is also disclosed.

    Abstract translation: 垂直磁记录介质至少包括垂直磁记录层和背衬垂直磁记录层的背衬层。 背衬层具有平面内磁化,并且由具有补偿温度的磁铁材料形成,所述补偿温度在记录/再现温度附近,其中磁信息从垂直磁记录层进行再现。 还公开了一种使用垂直磁记录介质记录和再现磁信息的磁存储装置。

    Perpendicular magnetic recording medium
    5.
    发明授权
    Perpendicular magnetic recording medium 失效

    公开(公告)号:US07147940B2

    公开(公告)日:2006-12-12

    申请号:US10346342

    申请日:2003-01-17

    Applicant: Maki Maeda Hiroto Takeshita Takuya Uzumaki

    Inventor: Maki Maeda Hiroto Takeshita Takuya Uzumaki

    IPC: G11B5/66 G11B5/70

    CPC classification number: G11B5/66

    Abstract: The present invention provides a perpendicular magnetic recording medium that reduces medium noise and achieves thermal stability of recording magnetization. This perpendicular magnetic recording medium has a substrate and a recording layer formed by single-layered magnetic nanoparticles that are aligned at uniform intervals. An auxiliary magnetic film that is thinner than the recording layer is interposed between the substrate and the recording layer. The magnetization of the magnetic nanoparticles is secured by the exchange interaction effect of the auxiliary magnetic film.

    Layered polycrystalline structure and method of making the same
    6.
    发明授权
    Layered polycrystalline structure and method of making the same 失效
    层状多晶结构及制作方法

    公开(公告)号:US07008705B2

    公开(公告)日:2006-03-07

    申请号:US09812515

    申请日:2001-03-20

    Applicant: Ryoichi Mukai Takuya Uzumaki

    Inventor: Ryoichi Mukai Takuya Uzumaki

    IPC: G11B5/66 G11B5/70

    CPC classification number: B82Y25/00 G11B5/656 G11B5/732 G11B5/7325 G11B5/84 H01F10/32

    Abstract: A layered polycrystalline structure includes a seed crystal or Cr layer containing non-magnetic Cr atoms. A non-magnetic crystal layer such as a Co65Cr35 layer is formed on the exposed surface of the seed crystal layer. A magnetic crystal layer such as a co88Pt12 layer is formed on the exposed surface of the non-magnetic crystal layer. Heat treatment induces the diffusion of the Cr atoms along the grain boundaries within the magnetic crystal layer. Walls of a non-magnetic material can be established along the grain boundaries in the magnetic crystal layer. The diffusion of the Cr atoms can sufficiently be suppressed within the lattices of the magnetic crystal grains. Generation of an incomplete non-magnetic region can thus be restrained to the utmost within the magnetic crystal layer. Noise can be reduced in reproduction of a magnetic information data.

    Abstract translation: 层状多晶结构包括含有非磁性Cr原子的晶种或Cr层。 在晶种层的暴露表面上形成诸如Co 65 N 35 S层的非磁性结晶层。 在非磁性结晶层的露出表面上形成诸如88Bb层的磁性结晶层。 热处理引起Cr原子沿着磁晶层内的晶界的扩散。 可以沿着磁性结晶层的晶界建立非磁性材料的壁。 Cr原子的扩散可以充分地抑制在磁晶粒的晶格内。 因此,可以在磁结晶层内最大程度地抑制不完全非磁性区域的产生。 在磁信息数据的再现中可以减少噪声。

    Magnetic recording medium and magnetic recording device
    7.
    发明授权
    Magnetic recording medium and magnetic recording device 失效
    磁记录介质和磁记录装置

    公开(公告)号:US07611783B2

    公开(公告)日:2009-11-03

    申请号:US11374424

    申请日:2006-03-14

    Applicant: Ryosaku Inamura Isatake Kaitsu Takuya Uzumaki

    Inventor: Ryosaku Inamura Isatake Kaitsu Takuya Uzumaki

    IPC: G11B5/66

    CPC classification number: G11B5/65 G11B5/656 G11B5/66 G11B5/667 G11B5/732 G11B5/7325

    Abstract: A magnetic recording medium includes; a base member; an underlayer formed on the base member; a main recording layer formed on the underlayer, and a writing assist layer formed on or under the main recording layer in contact with the main recording layer. The main recording layer has perpendicular magnetic anisotropy with an anisotropic magnetic field of Hk1 and an inclination of a reversal part of a magnetization curve of a1. The writing assist layer has an anisotropic magnetic field of Hk2 and an inclination of a reversal part of a magnetization curve of a2. The anisotropic magnetic fields Hk1 and Hk2 and the inclinations a1 and a2 satisfy Hk1>Hk2 and a2>a1.

    Abstract translation: 磁记录介质包括: 基地会员 形成在所述基底构件上的底层; 形成在底层上的主记录层,以及形成在与主记录层接触的主记录层上或下面的书写辅助层。 主记录层具有Hk1的各向异性磁场和a1的磁化曲线的反转部分的倾斜的垂直磁各向异性。 写辅助层具有Hk2的各向异性磁场和a2的磁化曲线的反转部分的倾斜度。 各向异性磁场Hk1和Hk2以及倾角a1和a2满足Hk1> Hk2和a2> a1。

    Magnetic recording medium and magnetic recording device
    9.
    发明申请
    Magnetic recording medium and magnetic recording device 审中-公开
    磁记录介质和磁记录装置

    公开(公告)号:US20060222900A1

    公开(公告)日:2006-10-05

    申请号:US11167579

    申请日:2005-06-28

    Applicant: Ryosaku Inamura Isatake Kaitsu Takuya Uzumaki

    Inventor: Ryosaku Inamura Isatake Kaitsu Takuya Uzumaki

    IPC: G11B5/66

    CPC classification number: G11B5/65 G11B5/656 G11B5/66 G11B5/667 G11B5/7325 G11B5/7379

    Abstract: A magnetic recording medium includes; a base member; an underlayer formed on the base member; a main recording layer formed on the underlayer, and a writing assist layer formed on or under the main recording layer in contact with the main recording layer. The main recording layer has perpendicular magnetic anisotropy with an anisotropic magnetic field of Hk1 and an inclination of a reversal part of a magnetization curve of a1. The writing assist layer has an anisotropic magnetic field of Hk2 and an inclination of a reversal part of a magnetization curve of a2. The anisotropic magnetic fields Hk1 and Hk2 and the inclinations a1 and a2 satisfy Hk1>Hk2 ∞0 and a1>a2.

    Abstract translation: 磁记录介质包括: 基地会员 形成在所述基底构件上的底层; 形成在底层上的主记录层,以及形成在与主记录层接触的主记录层上或下面的书写辅助层。 主记录层具有垂直磁各向异性,其各向异性磁场为H&gt; k1&lt; 1&lt; 1&gt;的磁化曲线的反转部分的倾斜度。 写辅助层具有H&gt; k2&gt;的各向异性磁场和2 的磁化曲线的反转部分的倾斜度。 各向异性磁场H k1和H k2以及倾斜a 1和2 2都满足H < k1 H&lt; k2&gt;∞0和&lt; 1&lt; / SUB&gt;&lt; 2&lt; 2&gt ;.

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