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
    • 3. 发明申请
    • DEFECT DETECTION USING SURFACE ENHANCED ELECTRIC FIELD
    • 使用表面增强电场的缺陷检测
    • WO2014164929A1
    • 2014-10-09
    • PCT/US2014/023817
    • 2014-03-11
    • KLA-TENCOR CORPORATION
    • ZHAO, GuohengSHORTT, David W.
    • H01L21/027
    • G01N21/94G01N21/33G01N21/47G01N21/8806G01N21/9501G01N2021/8848G01N2201/06113
    • A system and method for detecting scattered light from particles on a wafer which have been excited by an enhanced electric field induced by an evanescent wave. A solid immersion lens is positioned proximate to the wafer surface. The front flat surface of the lens is parallel to the wafer surface such that an air gap is maintained. A deep ultra violet light source emits a laser beam illuminating the surface through the solid immersion lens at the critical angle thereby generating an evanescent wave. An enhanced electric field induced by the evanescent wave is generated at the wafer surface. The air gap distance is less than the wavelength emitted by the DUV light source. The solid immersion lens is supported by a lens support. The scattered light of the particles excited by the enhanced electric field is coupled by the solid immersion lens to the far field and collected by a first and a second lenses. A detector receives the collected signal and generates a corresponding detector signal. A processor receives and analyzes the detector signal to identify defects.
    • 一种用于检测已经被ev逝波引起的增强电场激发的晶片上的颗粒的散射光的系统和方法。 固体浸没透镜位于晶片表面附近。 透镜的前平坦表面平行于晶片表面,从而保持气隙。 深紫外光源以临界角发射通过固体浸没透镜照射表面的激光束,从而产生ev逝波。 在晶片表面产生由ev逝波引起的增强电场。 气隙距离小于由DUV光源发出的波长。 固体浸没透镜由透镜支撑件支撑。 由增强电场激发的粒子的散射光通过固体浸没透镜耦合到远场并由第一和第二透镜收集。 检测器接收收集的信号并产生相应的检测器信号。 处理器接收并分析检测器信号以识别缺陷。
    • 4. 发明申请
    • GENERATING AN ARRAY OF SPOTS ON INCLINED SURFACES
    • 产生一个包含在表面上的点阵列
    • WO2014100480A1
    • 2014-06-26
    • PCT/US2013/076695
    • 2013-12-19
    • KLA-TENCOR CORPORATION
    • ZHAO, Guoheng
    • G01B11/30G01N21/956G02B5/18
    • G01N21/9501G01N21/8806G01N21/956G02B27/0905G02B27/0944G02B27/425
    • A system which may be used to generate a plurality of spots on a surface is provided. The spots may be aligned with the incident plane of oblique illumination. The system may include a diffractive optical element configured to split a beam into a plurality of beams by generating a plurality of diffraction orders. The system may also include a focusing lens configured to focus at least some of the plurality of beams on the surface in the plurality of spots. At least some of the plurality of beams may be focused on the surface at an oblique illumination angle. The system may also include an illumination source positioned off-axis relative to an optical axis of the diffractive optical element. Using the system, a plurality of spots may be generated on an inclined surface.
    • 提供了可用于在表面上产生多个点的系统。 斑点可以与倾斜照明的入射平面对齐。 该系统可以包括衍射光学元件,其被配置为通过产生多个衍射级将光束分割成多个光束。 该系统还可以包括聚焦透镜,其配置成将多个光束中的至少一些聚焦在多个光斑中的表面上。 多个光束中的至少一些可以以倾斜照明角度聚焦在表面上。 该系统还可以包括相对于衍射光学元件的光轴离轴设置的照明源。 使用该系统,可以在倾斜表面上产生多个点。
    • 9. 发明申请
    • MULTI-SPOT SCANNING SYSTEM AND METHOD
    • 多点扫描系统和方法
    • WO2009111407A2
    • 2009-09-11
    • PCT/US2009/035749
    • 2009-03-02
    • KLA-TENCOR CORPORATIONZHAO, GuohengRUNYON, RexVAEZ-IRAVANI, Mehdi
    • ZHAO, GuohengRUNYON, RexVAEZ-IRAVANI, Mehdi
    • H01L21/66
    • G01N21/9501G01N21/8806G01N2201/10G01N2201/104G02B26/123Y10S359/90
    • A multi-spot scanning technique using a spot array having a predetermined gap between spots can advantageously provide scalability to a large number of spots as well as the elimination of cross-talk between channels. The multi-spot scanning technique can select a number of spots for the spot array (1D or 2D), determine a separation between the spots to minimize crosstalk, and perform a scan on a wafer using the spot array and a full field of view (FOV). Performing the scan includes performing a plurality of scan line cycles, wherein each scan line cycle can fill in gaps left by previous scan line cycles. This 'delay and fill' scan allows large spacing between spots, thereby eliminating cross-talk at the detector plane. In one embodiment, the scan is begun and ended outside a desired scan area on the wafer to ensure full scan coverage.
    • 使用具有点之间的预定间隙的点阵列的多点扫描技术可以有利地提供对大量斑点的可扩展性以及消除通道之间的串扰。 多点扫描技术可以选择点阵列(1D或2D)的多个斑点,确定斑点之间的间隔以最小化串扰,并使用斑点阵列和全视场对晶片进行扫描( FOV)。 执行扫描包括执行多个扫描线周期,其中每个扫描线周期可以填充先前扫描线周期留下的间隙。 这种“延迟和填充”扫描允许斑点之间的大间距,从而消除检测器平面处的串扰。 在一个实施例中,扫描开始并结束在晶片上期望的扫描区域的外部,以确保全扫描覆盖。