Measuring an alignment target with a single polarization state
    1.
    发明授权
    Measuring an alignment target with a single polarization state 有权
    用单极化状态测量对准目标

    公开(公告)号:US06992764B1

    公开(公告)日:2006-01-31

    申请号:US10261547

    申请日:2002-09-30

    IPC分类号: G01J4/00

    摘要: An alignment target includes periodic patterns on two elements. The periodic patterns are aligned when the two elements are properly aligned. By measuring the two periodic patterns with an incident beam having a single polarization state and detecting the intensity of the resulting polarized light, it can be determined if the two elements are aligned. The same polarization state may be detected as is incident or different polarization states may be used. A reference measurement location may be used that includes a third periodic pattern on the first element and a fourth periodic pattern on the second element, which have a designed in offset, i.e., an offset when there is an offset of a known magnitude when the first and second element are properly aligned. The reference measurement location is similarly measured with a single polarization state.

    摘要翻译: 对齐目标包括两个元素上的周期性图案。 当两个元件正确对齐时,周期性图案对准。 通过用具有单一偏振态的入射光束测量两个周期性图案并检测所得到的偏振光的强度,可以确定两个元件是否对齐。 可以像入射一样检测相同的偏振状态,也可以使用不同的偏振状态。 可以使用参考测量位置,其包括第一元件上的第三周期性图案和第二元件上的第四周期性图案,其具有被设计为偏移的偏移,即当第一元件具有已知幅度的偏移时的偏移 并且第二元件被正确对准。 参考测量位置类似地用单一偏振态测量。

    Encoder measurement based on layer thickness
    2.
    发明授权
    Encoder measurement based on layer thickness 失效
    基于层厚度的编码器测量

    公开(公告)号:US06970255B1

    公开(公告)日:2005-11-29

    申请号:US10422232

    申请日:2003-04-23

    IPC分类号: G01B11/14 G01D5/34 G01D5/347

    CPC分类号: G01D5/34707

    摘要: An encoder includes a layer on the scale that has a thickness that varies as a function of position along the length of the scale. The position of the sensor head with respect to the scale may be determined by measuring the thickness of the layer or index of refraction, e.g., using a reflectometer, and converting the thickness to the lateral position. In one embodiment, the thickness of the layer is used to provide a rough position of the sensor head with respect to the scale and an alignment target that includes periodic patterns on both the sensor head and scale is used to provide a refined position.

    摘要翻译: 编码器包括刻度上的层,其厚度随着刻度长度的位置而变化。 传感器头相对于刻度尺的位置可以通过测量层的厚度或折射率来确定,例如使用反射计,并将厚度转换成横向位置。 在一个实施例中,层的厚度用于提供传感器头相对于标尺的粗略位置,并且使用包括传感器头部和标尺上的周期性图案的对准目标来提供精细位置。

    Alignment target with designed in offset
    3.
    发明授权
    Alignment target with designed in offset 有权
    对准目标设计在偏移

    公开(公告)号:US07230705B1

    公开(公告)日:2007-06-12

    申请号:US11075228

    申请日:2005-03-07

    CPC分类号: G03F7/70633 G03F9/7076

    摘要: An alignment target includes periodic patterns on two elements. The alignment target includes two locations, at least one of which has a designed in offset. In one embodiment, both measurement locations have a designed in offset of the same magnitude but opposite directions. For example, two separate overlay patterns that are mirror images of each other may be used. Alternatively, the magnitudes and/or directions may vary between the measurement locations. The radiation that interacts with the measurement locations is compared. The calculated difference is extremely sensitive to any alignment error. If the difference between the patterns is approximately zero, the elements are properly aligned. When an alignment error is introduced, however, calculated difference can be used to determine the error. In one embodiment, the alignment target is modeled to determine the alignment error. In another embodiment, additional overlay patterns with additional reference offsets are used to determine the alignment error.

    摘要翻译: 对齐目标包括两个元素上的周期性图案。 对准目标包括两个位置,其中至少一个具有偏移设计。 在一个实施例中,两个测量位置具有相同幅度但相反方向偏移的设计。 例如,可以使用作为彼此的镜像的两个单独的覆盖图案。 或者,幅度和/或方向可以在测量位置之间变化。 比较与测量位置相互作用的辐射。 计算的差异对任何对准误差都非常敏感。 如果图案之间的差异大约为零,则元素将被正确对齐。 然而,当引入对准误差时,可以使用计算出的差异来确定误差。 在一个实施例中,对准目标被建模以确定对准误差。 在另一个实施例中,使用具有附加参考偏移的附加覆盖图案来确定对准误差。

    Positioning two elements using an alignment target with a designed offset
    4.
    发明授权
    Positioning two elements using an alignment target with a designed offset 有权
    使用具有设计偏移的对齐目标定位两个元素

    公开(公告)号:US07046361B1

    公开(公告)日:2006-05-16

    申请号:US10116964

    申请日:2002-04-04

    IPC分类号: G01B11/00

    摘要: An alignment system for aligning two elements includes an alignment target with periodic patterns on each element. The alignment target includes two locations, at least one of which has a designed in offset. If desired, both locations may have designed in offsets of the same magnitude but in opposite directions. The diffraction patterns produced at the two locations are compared. If the difference between the patterns is at a minimum, the elements are properly aligned. When an alignment error is introduced, however, the calculated difference can be used to determine the error. In another embodiment, bands in the moiré fringes from the different locations may be compared to determine the alignment error. The two elements may then be moved relative to each other to minimize the alignment error. Thus, the alignment target may advantageously be used in any alignment system, such as an exposure tool.

    摘要翻译: 用于对准两个元件的对准系统包括在每个元件上具有周期性图案的对准目标。 对准目标包括两个位置,其中至少一个具有偏移设计。 如果需要,两个位置可以设计成相同幅度的偏移但是在相反的方向上。 比较在两个位置产生的衍射图。 如果图案之间的差异最小,则元素将被正确对齐。 然而,当引入对准误差时,可以使用计算出的差异来确定误差。 在另一个实施例中,可以比较来自不同位置的莫尔条纹中的条带以确定对准误差。 然后可以相对于彼此移动两个元件以使对准误差最小化。 因此,对准目标可以有利地用于任何对准系统,例如曝光工具。

    Method and apparatus for using an alignment target with designed in offset
    5.
    发明授权
    Method and apparatus for using an alignment target with designed in offset 有权
    使用偏移设计的对准对象的方法和装置

    公开(公告)号:US06982793B1

    公开(公告)日:2006-01-03

    申请号:US10116863

    申请日:2002-04-04

    IPC分类号: G01B11/27

    CPC分类号: G03F7/70633 G03F9/7076

    摘要: An alignment target includes periodic patterns on two elements. The alignment target includes two locations, at least one of which has a designed in offset. In one embodiment, both measurement locations have a designed in offset of the same magnitude but opposite directions. For example, two separate overlay patterns that are mirror images of each other may be used. Alternatively, the magnitudes and/or directions may vary between the measurement locations. The radiation that interacts with the measurement locations is compared. The calculated difference is extremely sensitive to any alignment error. If the difference between the patterns is approximately zero, the elements are properly aligned. When an alignment error is introduced, however, calculated difference can be used to determine the error. In one embodiment, the alignment target is modeled to determine the alignment error. In another embodiment, additional overlay patterns with additional reference offsets are used to determine the alignment error.

    摘要翻译: 对齐目标包括两个元素上的周期性图案。 对准目标包括两个位置,其中至少一个具有偏移设计。 在一个实施例中,两个测量位置具有相同幅度但相反方向偏移的设计。 例如,可以使用作为彼此的镜像的两个单独的覆盖图案。 或者,幅度和/或方向可以在测量位置之间变化。 比较与测量位置相互作用的辐射。 计算的差异对任何对准误差都非常敏感。 如果图案之间的差异大约为零,则元素将被正确对齐。 然而,当引入对准误差时,可以使用计算出的差异来确定误差。 在一个实施例中,对准目标被建模以确定对准误差。 在另一个实施例中,使用具有附加参考偏移的附加覆盖图案来确定对准误差。

    Encoder with an alignment target
    6.
    发明授权
    Encoder with an alignment target 失效
    具有对准目标的编码器

    公开(公告)号:US06958819B1

    公开(公告)日:2005-10-25

    申请号:US10116855

    申请日:2002-04-04

    IPC分类号: G01B11/14 G01D5/347

    CPC分类号: G01D5/34746

    摘要: An encoder uses an alignment target that includes periodic patterns on the movable element and the stationary element. The alignment target may include at least two measurement locations, each location having a different offset between the periodic pattern on the movable element with respect to the periodic pattern on the stationary element. Alternatively, two measurements using different polarization states may be made at one location. When the periodic patterns on the movable element and the stationary element are aligned, the difference between the two measurements will produce a minimum, i.e., approximately a zero value plus noise. By counting the minima, the precise position of the movable element with respect to the stationary element can be determined. The resolution of the encoder may be further increased using reference measurements.

    摘要翻译: 编码器使用在可移动元件和固定元件上包括周期性图案的对准目标。 对准目标可以包括至少两个测量位置,每个位置在可移动元件上的周期性图案之间相对于静止元件上的周期性图案具有不同的偏移。 或者,可以在一个位置进行使用不同极化状态的两个测量。 当可移动元件和静止元件上的周期性图案对准时,两个测量之间的差将产生最小值,即近似零值加噪声。 通过计算最小值,可以确定可移动元件相对于静止元件的精确位置。 可以使用参考测量进一步增加编码器的分辨率。

    Image control in a metrology/inspection positioning system
    7.
    发明授权
    Image control in a metrology/inspection positioning system 有权
    计量/检测定位系统中的图像控制

    公开(公告)号:US07289215B2

    公开(公告)日:2007-10-30

    申请号:US11624666

    申请日:2007-01-18

    CPC分类号: G02B7/00

    摘要: A metrology system includes a positioning system that produces linear and rotational motion between an imaging system and the wafer. The imaging system produces signals representing the image of the wafer in the field of view of the imaging system. A control system receives and processes the image signals, and generates corrected signals that compensate for rotational movement between the imaging system and the wafer. In response to the corrected signals, a monitor displays an image with the orientation of features on the wafer within the field of view unaffected by the rotational movement.

    摘要翻译: 计量系统包括在成像系统和晶片之间产生线性和旋转运动的定位系统。 成像系统在成像系统的视野中产生表示晶片的图像的信号。 控制系统接收和处理图像信号,并产生补偿成像系统和晶片之间的旋转运动的校正信号。 响应于校正的信号,监视器在不受旋转运动影响的视场内显示具有晶片上的特征的取向的图像。

    Combination of normal and oblique incidence polarimetry for the characterization of gratings
    8.
    发明授权
    Combination of normal and oblique incidence polarimetry for the characterization of gratings 有权
    用于表征光栅的正常和倾斜入射偏振方法的组合

    公开(公告)号:US06713753B1

    公开(公告)日:2004-03-30

    申请号:US09898641

    申请日:2001-07-03

    IPC分类号: G02F101

    CPC分类号: G01N21/956 G01B11/00

    摘要: A normal incidence spectroscopic polarimeter is combined with an oblique incidence spectroscopic polarimeter to provide an accurate characterization of complex grating structures, e.g., structures with sloping sidewalls, with notches and with multiple underlying layers. The normal incidence spectroscopic polarimeter includes a polarizing element that is in the path of the normal incidence light beam such that the light beam is transmitted through the polarizing element before reaching the sample and after being reflected off the sample. The two systems may advantageously share a single light source and/or the spectrophotometer.

    摘要翻译: 正常入射光谱偏振计与倾斜入射光谱旋光计结合,以提供复杂光栅结构的准确表征,例如具有倾斜侧壁的结构,具有凹口和多个下层。 正常入射光谱旋光计包括在法线入射光束的路径中的偏振元件,使得光束在到达样品之前并且被反射离开样品之后透射通过偏振元件。 两个系统可以有利地共享单个光源和/或分光光度计。

    Sample support with a non-reflecting sample supporting surface
    9.
    发明授权
    Sample support with a non-reflecting sample supporting surface 有权
    样品支架带有非反射样品支撑面

    公开(公告)号:US6108077A

    公开(公告)日:2000-08-22

    申请号:US209365

    申请日:1998-12-08

    IPC分类号: G01N21/01 G01N21/95 G01J1/00

    CPC分类号: G01N21/01 G01N21/9501

    摘要: An optical measurement instrument that detects and analyzes reflected light includes a sample support, such as a wafer supporting chuck, with a sample bearing surface that is configured so as to not reflect light back to the optical measurement instrument. In one embodiment, the sample bearing surface of the sample support is a layer of material that absorbs light in the wavelength or wavelengths being used by the optical measurement instrument. For example, a hard plastic, such as poly-ether-ether-ketone (PEEK), may be used to absorb light in the infrared wavelengths. In another embodiment, the entire sample support may be manufactured from the light absorbing material. In yet another embodiment, the top surface of the sample support is configured with light scattering depressions, which prevent light that is incident on the sample bearing surface from being reflected back to the optical measurement instrument.

    摘要翻译: 检测和分析反射光的光学测量仪器包括样品支撑件,例如晶片支撑卡盘,其具有被构造成不将光反射回到光学测量仪器的样品支承表面。 在一个实施例中,样品支架的样品承载表面是吸收由光学测量仪器使用的波长或波长的光的材料层。 例如,可以使用诸如聚醚醚酮(PEEK)的硬塑料来吸收红外波长的光。 在另一个实施例中,整个样品支架可以由光吸收材料制成。 在另一个实施例中,样品支架的顶表面配置有光散射凹陷,其阻止入射在样品支承表面上的光被反射回到光学测量仪器。

    Metrology/inspection positioning system
    10.
    发明授权
    Metrology/inspection positioning system 有权
    计量/检验定位系统

    公开(公告)号:US07295314B1

    公开(公告)日:2007-11-13

    申请号:US09458123

    申请日:1999-12-08

    CPC分类号: G01N21/9501

    摘要: A metrology/inspection system moves the imaging and/or measuring equipment of the system relative to a wafer. Accordingly, measurement or inspection of the wafer does not require that the wafer be mounted on a precision stage. This allows the wafer to be at rest on any structure native in a processing apparatus when the system measures or inspects the wafer. Accordingly, measurement does not require removing the wafer from the processing apparatus and does not delay processing since the wafer can be measured, for example, during a required cool down period of device fabrication process. Alignment of an optical system includes pre-alignment base on edge detection using the optical system and more precise alignment using image recognition. An R-θ stage can position the optical system at inspection areas on the wafer. Image rotation can provide a fixed orientation for all images at the various inspection areas and can maintain the fixed orientation when moving from one inspection area to the next.

    摘要翻译: 计量/检查系统相对于晶片移动系统的成像和/或测量设备。 因此,晶片的测量或检查不需要将晶片安装在精密平台上。 这允许当系统测量或检查晶片时,晶片在处理设备中本构的任何结构处于静止状态。 因此,测量不需要从处理设备中移除晶片,并且不延迟处理,因为可以例如在器件制造工艺的所需冷却时间期间测量晶片。 光学系统的对准包括基于使用光学系统的边缘检测的预对准和使用图像识别的更精确的对准。 R-θ级可以将光学系统定位在晶片上的检查区域。 图像旋转可以为各种检查区域的所有图像提供固定的方向,并且可以在从一个检查区域移动到下一个检查区域时保持固定的方向。