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    • 1. 发明授权
    • System and method for maintaining a low density gas environment in a disk drive
    • 用于在磁盘驱动器中维持低密度气体环境的系统和方法
    • US08934194B2
    • 2015-01-13
    • US13282966
    • 2011-10-27
    • Erhard Schreck
    • Erhard Schreck
    • G11B33/14G11B25/04G11B33/12
    • G11B25/043G11B33/148
    • A system and method for decreasing power consumption of hard disk drives through use of an external atmosphere of low density gas, such as helium, is described. An environment container reasonably resistant to diffusion and leakage of helium (container) is erected around an existing hard disk array or server, wherein a helium mixture is pumped into the container. The helium mixture within the container is maintained at a specified concentration via proper tubing and valves which may be manually or automatically controlled. The actual concentration need not be very pure in order to achieve reduced drag over the disks in each of the hard disk drives, thereby achieving reduced power consumption. The environment container is stand alone from the hard disk drives used such that an altered hard disk apparatus is unnecessary.
    • 描述了通过使用低密度气体(例如氦)的外部气氛来降低硬盘驱动器的功率消耗的系统和方法。 在现有的硬盘阵列或服务器周围架设有适合抵抗氦(容器)扩散和泄漏的环境容器,其中将氦气混合物泵送到容器中。 容器内的氦气混合物通过可手动或自动控制的适当的管道和阀门保持在指定的浓度。 为了实现每个硬盘驱动器中的盘的减少的拖动,实际的浓度不必是非常纯净的,从而实现降低的功耗。 环境容器是独立于所使用的硬盘驱动器,使得不需要改变的硬盘设备。
    • 3. 发明授权
    • Nano-lithography with rotating target and servo-positioned tip
    • 具有旋转目标和伺服定位尖端的纳米光刻
    • US08358481B2
    • 2013-01-22
    • US12080278
    • 2008-04-02
    • Yuchen ZhouErhard SchreckDavid Hu
    • Yuchen ZhouErhard SchreckDavid Hu
    • G11B11/08
    • G11B5/59633B82Y10/00G11B5/314G11B5/59638G11B5/743G11B5/82G11B5/855G11B9/1409
    • The preferred embodiments of the present invention are devices and processes for producing high resolution lithography or pattern formation on the nanometer scale, using a voltage-biased probe that is slider-mounted along with, or separate from but linked to, a magnetic read head within a HDD mechanism. The probe is guided and positioned over a target layer by the motion of the read head which is, itself, guided by signals from servo tracks on a magnetic layer that activate an electromechanical servomechanism within the HDD. An electric field produced by the probe is capable of modifying the surface of the target layer over which the probe flies either directly, or by current induced or thermally induced effects. Targets such as amorphous or crystalline silicon can be hydrogen passivated and the electric field will produce oxidized or anodized lines with nanometer resolution.
    • 本发明的优选实施例是设备和方法用于在纳米尺度上产生高分辨率平版印刷或图案形成,使用电压偏置探针,滑块安装有沿,或从分开的,但连接到,一个磁性读出头内 HDD机制。 探头通过读取头的运动被引导和定位在目标层上,该读取头本身由在激活HDD内的机电伺服机构的磁性层上的来自伺服磁道的信号引导。 由探针产生的电场能够直接改变探针在其上飞行的目标层的表面,或者通过电流感应或热诱导效应。 诸如非晶体或晶体硅的靶可以被氢钝化,并且电场将产生具有纳米分辨率的氧化或阳极化线。
    • 4. 发明授权
    • Directional waveguide coupler for ABS reflected light
    • ABS反射光的定向波导耦合器
    • US08238202B2
    • 2012-08-07
    • US12928678
    • 2010-12-16
    • Erhard SchreckTobias MaletzkyXuhui JinYuchen ZhouKenichi TakanoJoe Smyth
    • Erhard SchreckTobias MaletzkyXuhui JinYuchen ZhouKenichi TakanoJoe Smyth
    • G11B11/00
    • G11B5/314B82Y20/00G02B6/1226G02B6/125G02B6/2821G11B5/3189G11B2005/001G11B2005/0021
    • A waveguide structure for a TAMR head is disclosed wherein at least one detection waveguide is formed parallel to a main waveguide and located a gap distance therefrom. A light source transmits light into the main waveguide and towards an ABS/medium interface. A plasmon generator converts light from the waveguide into plasmon waves that are directed onto a magnetic medium. Back reflected light is captured by the main waveguide, partially diverted into a detection waveguide, and transmitted to a photo detector that measures light intensity (IB) which correlates closely to the plasmon wave intensity at the ABS/medium interface. A controller linked to the photo detector is employed to calculate IB as a function of ABS/medium spacing in a non-write condition and this relationship can be used to control and maintain a constant plasmon wave intensity at the ABS during a series of TAMR write processes with a plurality of media.
    • 公开了一种用于TAMR头的波导结构,其中至少一个检测波导与主波导平行地形成并且与其间的间隙距离。 光源将光传输到主波导并朝向ABS /介质接口。 等离子体激元发生器将来自波导的光转换成被引导到磁介质上的等离子体波。 后反射光被主波导捕获,部分转移到检测波导中,并传输到光检测器,该光检测器测量与ABS /介质界面处的等离子体波强度密切相关的光强度(IB)。 在非写入条件下,使用与光电检测器相关联的控制器来计算IB作为ABS /介质间隔的函数,并且该关系可用于在一系列TAMR写入期间控制和维持ABS处的恒定等离子体波强度 具有多个媒体的过程。
    • 5. 发明授权
    • Plasmon shield to shape and reduce optical spot
    • 等离子体屏蔽形状并减少光斑
    • US08036069B1
    • 2011-10-11
    • US12802096
    • 2010-05-28
    • Xuhui JinYuchen ZhouJoe SmythTobias MaletzkyKenichi TakanoErhard Schreck
    • Xuhui JinYuchen ZhouJoe SmythTobias MaletzkyKenichi TakanoErhard Schreck
    • G11B11/00
    • G11B5/314G02B6/107G11B2005/0021
    • A TAMR head is disclosed with a triangular shaped plasmon antenna covered on two sides with a plasmon layer that generates an edge plasmon mode along a vertex of the two plasmon sides formed opposite a main pole layer. A plasmon shield (PS) is formed along the ABS and opposite the vertex to confine an electric field from the edge plasmon mode within a small radius of the edge plasmon tip thereby reducing the optical spot size on the magnetic medium and enhancing writability. An end of a waveguide used to direct input electromagnetic radiation to the plasmon antenna adjoins a PS side opposite the ABS. In one embodiment, a magnetic shield may be formed along the ABS and adjoins the PS so that a first PS section terminates at the ABS and faces the vertex while a second PS section is formed between the magnetic shield and waveguide end.
    • 公开了具有三面形等离子体激元的三角形等离子体激元天线,该三角形等离子体激元天线用等离子体膜覆盖,该等离子体膜沿着与主极层相对的两个等离子体激元侧的顶点产生边缘等离子体模式。 等离子体屏蔽(PS)沿着ABS形成并与顶点相对,以将边缘等离子体激元模式的电场限制在边缘等离子体激元尖端的小半径内,从而减小磁介质上的光点尺寸并提高可写性。 用于将输入电磁辐射引导到等离子体激元天线的波导的一端与ABS相对的PS侧相邻。 在一个实施例中,可以沿着ABS形成磁屏蔽并与PS邻接,使得第一PS部分在ABS处终止并面向顶点,而在磁屏蔽和波导端之间形成第二PS部分。