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    • 2. 发明授权
    • Method and system for an energy assisted magnetic recording head having a suspension-mounted laser
    • 具有悬挂式激光器的能量辅助磁记录头的方法和系统
    • US08456963B1
    • 2013-06-04
    • US12758319
    • 2010-04-12
    • Yufeng HuRuolin LiUt TranJinshan Li
    • Yufeng HuRuolin LiUt TranJinshan Li
    • G11B11/00
    • G11B5/314G11B5/4866G11B5/6088G11B2005/0021
    • An energy assisted magnetic recording (EAMR) disk drive comprises a suspension and a slider having a back side, a laser-facing surface, and an air-bearing surface (ABS) opposite the back side. The slider is mounted to the suspension on the back side. The disk drive further comprises an EAMR transducer coupled with the slider, a portion of the EAMR transducer residing in proximity to the ABS and on the laser-facing surface of the slider. The disk drive further comprises a laser coupled with the suspension and having a light emitting surface facing the laser-facing surface of the slider. The laser has an optic axis substantially parallel to the suspension. The laser provides energy substantially along the optic axis and is optically coupled with the EAMR transducer via free space. The EAMR transducer receives the energy from the laser and writes to the media using the energy.
    • 能量辅助磁记录(EAMR)盘驱动器包括悬架和具有背面,面向激光的表面和与背面相对的空气轴承表面(ABS)的滑块。 滑块安装在背面的悬架上。 磁盘驱动器还包括与滑动器耦合的EAMR换能器,位于ABS附近的EAMR换能器的一部分和滑块的面向激光的表面。 磁盘驱动器还包括与悬架连接并具有面向滑块的面向激光的表面的发光表面的激光器。 激光器具有基本上平行于悬架的光轴。 激光器基本沿光轴提供能量,并通过自由空间与EAMR传感器光学耦合。 EAMR传感器从激光器接收能量,并使用能量写入介质。
    • 3. 发明授权
    • Methods and apparatuses for performing wafer level characterization of a plasmon element
    • 用于执行等离子体元件的晶片级表征的方法和装置
    • US08753903B1
    • 2014-06-17
    • US13478058
    • 2012-05-22
    • Shawn M. TannerYufeng HuSergei Sochava
    • Shawn M. TannerYufeng HuSergei Sochava
    • H01L21/66
    • H01L22/12
    • Improved pump-probe testing methods and apparatuses for measuring the performance of a plasmon element at wafer level are provided. In one embodiment, the apparatus includes a light source configured to output a first light beam on a grating located at a first end of a waveguide, the waveguide being configured to couple energy of the first light beam to the plasmon element located at a second end of the waveguide, and an optical probe assembly positioned above a top surface of the wafer. The optical probe assembly is configured to direct a second light beam on an area of the wafer including the plasmon element and detect a portion of the second light beam reflected from the area.
    • 提供了用于测量晶圆级别的等离子体元件的性能的改进的泵浦探针测试方法和装置。 在一个实施例中,该设备包括配置成在位于波导的第一端的光栅上输出第一光束的光源,该波导被配置为将第一光束的能量耦合到位于第二端的等离子体元件 以及位于晶片顶表面上方的光学探头组件。 光探针组件被配置为将第二光束引导到包括等离子体元件的晶片的区域上,并检测从该区域反射的第二光束的一部分。
    • 4. 发明授权
    • Method and system for optically coupling a laser with a transducer in an energy assisted magnetic recording disk drive
    • 用于在能量辅助磁记录磁盘驱动器中将激光与换能器光学耦合的方法和系统
    • US08670295B1
    • 2014-03-11
    • US12973328
    • 2010-12-20
    • Yufeng HuRuolin LiUt Tran
    • Yufeng HuRuolin LiUt Tran
    • G11B11/00
    • G11B5/6088G11B5/105G11B5/314G11B2005/0021
    • A method and system for providing an energy assisted magnetic recording (EAMR) transducer coupled with a laser. The EAMR transducer has an air-bearing surface (ABS) configured to reside in proximity to a media during use. The EAMR transducer includes a write pole, at least one coil, a waveguide and an output device. The write pole is configured to write to a region of the media. The at least one coil is for energizing the write pole. The waveguide has an input optically coupled to the laser and configured to direct energy from the laser toward the ABS for heating the region of the media. The output device is optically coupled to the waveguide. The output device coupling out a portion of the energy not coupled to the media.
    • 一种用于提供与激光器耦合的能量辅助磁记录(EAMR)传感器的方法和系统。 EAMR传感器具有配置成在使用期间驻留在介质附近的空气轴承表面(ABS)。 EAMR传感器包括写极,至少一个线圈,波导和输出装置。 写入极配置为写入介质的一个区域。 至少一个线圈用于激励写入极。 波导具有光学耦合到激光器并被配置为将能量从激光器引向ABS以加热介质区域的输入。 输出装置光耦合到波导。 输出设备耦合出未耦合到介质的能量的一部分。
    • 8. 发明授权
    • Structure and method to measure waveguide power absorption by surface plasmon element
    • 用表面等离子体元素测量波导功率吸收的结构和方法
    • US08749790B1
    • 2014-06-10
    • US13314962
    • 2011-12-08
    • Shawn M. TannerYufeng HuUt TranZhongyan WangZhong ShiSergei Sochava
    • Shawn M. TannerYufeng HuUt TranZhongyan WangZhong ShiSergei Sochava
    • G01N21/55
    • G01N21/553G01N21/7703
    • A structure for measuring energy absorption by a surface plasmon receptor or NFT on a waveguide comprises a first waveguide, a first input grating for coupling light comprising a first wavelength into the first waveguide, a first output grating for coupling light out of the first waveguide, a first plurality of surface plasmon receptors in cooperation with the first waveguide to receive light energy and located between the first input grating and the first output grating. The structure may further comprise a second waveguide, a second input grating for coupling light into the second waveguide, a second output grating for coupling light out of the second waveguide, a second plurality of surface plasmon receptors between the second input grating and the second output grating and in cooperation with the second waveguide to receive light energy, wherein the second plurality may be less than or greater than the first plurality.
    • 用于测量波导上的表面等离子体激元受体或NFT的能量吸收的结构包括:第一波导,用于将包含第一波长的光引入第一波导的第一输入光栅,用于将光从第一波导耦合的第一输出光栅, 与第一波导协作以接收光能并位于第一输入光栅和第一输出光栅之间的第一多个表面等离子体激元受体。 该结构还可以包括第二波导,用于将光耦合到第二波导中的第二输入光栅,用于将光从第二波导耦合的第二输出光栅,在第二输入光栅和第二输出之间的第二多个表面等离子体激元 光栅并与第二波导配合以接收光能,其中第二多个可以小于或大于第一多个。