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    • 1. 发明授权
    • Test structures for electrical linewidth measurement and processes for their formation
    • 电线宽测量的测试结构及其形成过程
    • US06399401B1
    • 2002-06-04
    • US09912186
    • 2001-07-24
    • Jongwook KyeHarry Levinson
    • Jongwook KyeHarry Levinson
    • G01R3126
    • H01L22/34H01L2924/0002Y10S977/88Y10S977/887H01L2924/00
    • In a method of determining a linewidth of a polysilicon line formed by a lithographic process, a polysilicon layer is formed on a substrate. A line is patterned from said polysilicon layer using said lithographic process and a Van der Pauw structure is patterned from said polysilicon layer. N2 is then implanted into the polysilicon line and the polysilicon Van der Pauw structure to form a depletion barrier. A P-type dopant is the implanted into the polysilicon line and the polysilicon Van der Pauw structure and the dopant is activated. A sheet resistivity of the Van der Pauw structure is determined, and the linewidth of the polysilicon line is then determined by electrical linewidth measurement using the sheet resistivity of the Van der Pauw structure as the sheet resistivity of the polysilicon line. A related test structure is also disclosed.
    • 在确定通过光刻工艺形成的多晶硅线的线宽的方法中,在衬底上形成多晶硅层。 使用所述光刻工艺从所述多晶硅层图案化线,并且从所述多晶硅层构图范德波瓦结构。 然后将N 2注入到多晶硅线和多晶硅Van der Pauw结构中以形成耗尽势垒。 P型掺杂剂被注入到多晶硅线中,并且多晶硅Van der Pauw结构和掺杂剂被激活。 确定Van der Pauw结构的薄层电阻率,然后通过使用Van der Pauw结构的薄层电阻率作为多晶硅线的薄层电阻率的电线宽测量来确定多晶硅线的线宽。 还公开了相关的测试结构。
    • 2. 发明授权
    • Lithography reflective mask
    • 光刻反光面膜
    • US06178221B1
    • 2001-01-23
    • US09205790
    • 1998-12-04
    • Harry LevinsonKhanh B. Nguyen
    • Harry LevinsonKhanh B. Nguyen
    • G21K500
    • G03F7/70283B82Y10/00B82Y40/00G03F1/24G03F7/70233
    • A reflective lithography mask (12) including a substrate (40); a reflective coating (42); a plurality of absorbing blocks (44) covering certain regions of the reflective coating (42) in a manner corresponding to a desired circuit pattern; and a plurality of buffer blocks (46) situated between the covered regions of the reflective coating and the absorbing blocks. The buffer blocks (46) are made of an electrically conducting material, such as carbon in graphite form; tin oxide (and materials based on this compound) and/or indium oxide (and materials based on this compound). Since the buffer material is electrically conducting, rather than insulating, the risk of electrostatic discharge damage is reduced.
    • 一种包括衬底(40)的反射光刻掩模(12); 反射涂层(42); 以对应于期望的电路图案的方式覆盖所述反射涂层(42)的某些区域的多个吸收块(44); 以及位于反射涂层的被覆区域和吸收块之间的多个缓冲块(46)。 缓冲块(46)由导电材料制成,例如石墨形式的碳; 氧化锡(和基于该化合物的材料)和/或氧化铟(以及基于该化合物的材料)。 由于缓冲材料是导电的而不是绝缘的,所以减少了静电放电损坏的风险。
    • 8. 发明授权
    • Determination of scanning error in scanner by reticle rotation
    • 通过光罩旋转确定扫描仪中的扫描误差
    • US06208747B1
    • 2001-03-27
    • US09203240
    • 1998-12-01
    • Khanh B. NguyenHarry Levinson
    • Khanh B. NguyenHarry Levinson
    • G06K900
    • G03F7/70616G03F7/70358G03F7/70625
    • A method (300) of characterizing a lithographic scanning system includes the steps of printing a first pattern (302) using a reticle (220) having a first orientation with respect to the lithographic scanning system and measuring a critical dimension of the first pattern at a plurality of points (310). The method (300) further includes printing a second pattern (320) using the reticle (220) having a second orientation with respect to the lithographic scanning system different than the first orientation and measuring a critical dimension of the second pattern at the plurality of points (322). The measured critical dimension data is then used to determine a reticle critical dimension component and a non-reticle critical dimension component of the patterns at the plurality of points (324) and a scanning system critical dimension component of the patterns is then determined using the non-reticle critical dimension component data along a plurality of points corresponding to a scanning direction of the lithographic scanning system (326).
    • 表征平版印刷扫描系统的方法(300)包括以下步骤:使用相对于光刻扫描系统具有第一取向的掩模版(220)打印第一图案(302),并测量第一图案的临界尺寸 多个点(310)。 方法(300)还包括使用相对于不同于第一取向的光刻扫描系统具有第二取向的掩模版(220)打印第二图案(320),并且在多个点处测量第二图案的临界尺寸 (322)。 然后使用测量的临界尺寸数据来确定多个点(324)上的图案的标线片临界尺寸分量和非标线片临界尺寸分量,并且然后使用非 - 沿着与光刻扫描系统(326)的扫描方向相对应的多个点的重复临界尺寸分量数据。
    • 10. 发明授权
    • Phase grating focus monitor using overlay technique
    • 相位光栅聚焦监测器使用覆盖技术
    • US06710853B1
    • 2004-03-23
    • US09944795
    • 2001-08-31
    • Bruno La FontaineJongwook KyeHarry Levinson
    • Bruno La FontaineJongwook KyeHarry Levinson
    • G03B2752
    • G03F7/70633G03F7/70641
    • An optical tool includes a tool body that is transparent to light. Pluralities of parallel opaque lines on the body form a first outline in the shape of the square, and a second outline in the shape of a square which is centrally located relative to and within the first-mentioned square. Each pair of adjacent parallel lines has therebetween a first region that allows transmission of light therethrough without changing phase thereof, and a second region alongside the first region that allows transmission of light therethrough while shifting the phase thereof by 90°. The phase shifting and non-phase shifting regions are positioned so that the images of the outlines provided by a lens on an object shit in position a substantial amount as the distance between the lens and the object is changed.
    • 光学工具包括对光透明的工具主体。 身体上多条平行的不透明线条形成了正方形形状的第一轮廓,并且以相对于第一个提及的正方形中心定位的正方形形状的第二轮廓。 每对相邻的平行线之间具有允许透过其而不改变其相位的第一区域,以及沿着第一区域的第二区域,其允许透过光而使其相位偏移90°。 定位相移和非相移区域,使得当物体上的透镜提供的轮廓的图像在透镜和物体之间的距离改变时大量地位置处于位置。