会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Patterning of high coercivity magnetic media by ion implantation
    • 通过离子注入形成高矫顽力磁性介质
    • US06753043B1
    • 2004-06-22
    • US09974909
    • 2001-10-12
    • David S. KuoXinwei Li
    • David S. KuoXinwei Li
    • C23C1404
    • B82Y10/00G11B5/74G11B5/743G11B5/82G11B5/855
    • A servo-patterned magnetic recording medium, comprising: a magnetic layer having a surface with substantially uniform topography, the magnetic layer including a data zone and a servo pattern, the servo pattern comprising: (a) a first patterned plurality of regions of first, higher values of magnetic coercivity Hc and magnetic remanence-thickness product Mrt; and (b) a second patterned plurality of ion-implanted regions of second, lower values of Hc. and Mrt; wherein the second, lower values of Hc and Mrt are sufficiently lower than the first, higher values of Hc and Mrt as to permit sensing for enabling accurate positioning of a read/write transducer head in the data zone but sufficiently high for providing the medium with thermal stability, high amplitude of magnetic transition, and high signal-to-noise ratio.
    • 一种伺服图案化磁记录介质,包括:磁性层,其表面具有基本均匀的形貌,所述磁性层包括数据区和伺服图案,所述伺服图案包括:(a)第一图案化的多个第一, 磁矫顽力Hc和磁剩磁厚度乘积Mrt值越高; 和(b)具有第二较低值Hc的第二图案化多个离子注入区域。 和夫人 其中Hc和Mrt的第二较低值足够低于Hc和Mrt的第一较高值,以便允许感测以使读/写换能器头在数据区域中能够精确定位,但足够高以便为介质提供 热稳定性,磁转变幅度高,信噪比高。
    • 7. 发明授权
    • Patterning longitudinal magnetic recording media with ion implantation
    • 用离子注入形成纵向磁记录介质
    • US06864042B1
    • 2005-03-08
    • US09912065
    • 2001-07-25
    • David KuoXinwei LiJing Gui
    • David KuoXinwei LiJing Gui
    • C23C14/04C23C14/48G11B5/74G11B5/82G11B5/855
    • B82Y10/00C23C14/042C23C14/48G11B5/74G11B5/743G11B5/82G11B5/855
    • A magnetic recording medium is formed with a distribution of low coercivity regions functioning as a transition pattern for servo information capable of being sensed by a read/write head by exposing a masked magnetic layer to ions to change the coercivity of the exposed magnetic layer without substantially affecting the topography of the magnetic layer.Embodiments of the present invention include forming a series of substantially radially extending low coercivity regions used to divide the magnetic layer into a plurality of sectors comprising substantially concentric circumferentially extending data tracks by exposing a masked magnetic layer having a high coercivity, i.e. from about 2000 Oe to about 10000 Oe, to one or more heavy atom ion bombardments of gaseous ions, e.g. argon ions, at a dose of about 1×1013 atoms/cm2 to about 9×1015 atoms/cm2 having an implantation energy of about 10 KeV to about 50 KeV.
    • 磁记录介质形成为具有低矫顽力区域的功能,该低矫顽力区域用作伺服信息的转变图案,能够通过将掩蔽的磁性层暴露于离子来改变被暴露的磁性层的矫顽力,而基本上不会被读/写头感测 本发明的实施例包括形成一系列基本上径向延伸的低矫顽力区域,用于将磁性层分成包括基本上同心的周向延伸的数据轨道的多个扇区,通过暴露具有 高矫顽力,即从大约2000Oe到大约10000Oe,到一个或多个重原子离子轰击气态离子,例如 氩离子,其量为约1×10 13原子/ cm 2至约9×10 15原子/ cm 2,其注入能量为约10KeV至约50KeV。
    • 9. 发明授权
    • Method for measuring PES noise of servo patterned media
    • 测量伺服图案介质的PES噪声的方法
    • US06853514B2
    • 2005-02-08
    • US10167561
    • 2002-06-11
    • Xinwei LiKoichi WagoDavid Shiao-Min Kuo
    • Xinwei LiKoichi WagoDavid Shiao-Min Kuo
    • G11B5/596
    • G11B5/59633G11B5/59611
    • A method for measuring servo pattern irregularity and other servo information of pre-patterned servo media mounted on a spindle with the center of the pre-pattern tracks off center from the axis rotation of the spindle. An actuator is stepped radially while measuring the PES signals from the servo sectors of at least one highly eccentric track to form a cross track profile of the PES signals for each sector. A mathematical algorithm removes step measurement error from the data. A second mathematical algorithm removes non-repeatable random noise from the data. The amount of phase-in that radially aligns the respective cross track profiles is computed. Servo pattern written-in repeatable runout is determined by unwrapping the phase-in values to form a periodic curve.
    • 一种用于测量安装在主轴上的预先图案化伺服介质的伺服模式不规则性和其他伺服信息的方法,其中预模式轨迹的中心偏离主轴的轴线旋转的中心。 在测量来自至少一个高偏心轨道的伺服扇区的PES信号的同时,致动器是径向的,以形成每个扇区的PES信号的交叉轨道轮廓。 数学算法从数据中删除步长测量误差。 第二个数学算法从数据中去除不可重复的随机噪声。 计算径向对准各自的横向轨道轮廓的相位的量。 通过展开相位值以形成周期性曲线来确定写入可重复跳动的伺服模式。