Patent application number | Description | Published |
20090303323 | PATTERN INSPECTION DEVICE AND METHOD OF INSPECTING PATTERN - A pattern inspection device according to the embodiment, includes: an image picking-up portion for picking-up an image of a pattern formation member in which a plurality of opening patterns are formed so as to obtain a picked-up image of the pattern formation member; a reference image obtaining portion for obtaining a reference image used for comparing with the picked-up image; and a pattern defect detecting portion for matching the center locations of the opening pattern images respectively between the picked-up image and the reference image, forming difference images of the opening pattern images between the picked-up image and the reference image per the opening pattern and detecting the defect of the opening pattern base on the difference images. | 12-10-2009 |
20110255770 | INSPECTION SYSTEM AND METHOD FOR INSPECTING LINE WIDTH AND/OR POSITIONAL ERRORS OF A PATTERN - A method and system for imaging an object to be inspected and obtaining an optical image; creating a reference image from design pattern data; preparing an inspection recipe including one or more templates and parameter settings necessary for the inspection; checking the pattern and the template against each other, and selecting the reference image which corresponds to the template; detecting first and second edges in the selected reference image in accordance with the parameter setting using determined coordinates as a reference; detecting first and second edges in the optical image, this optical image corresponds to the selected reference image; and determining an inspection value by acquiring the difference between the line width of the optical image and the reference image using the first edge and second edge of the reference image and the first edge and second edges of the optical image. | 10-20-2011 |
20140002826 | INSPECTION METHOD AND SYSTEM | 01-02-2014 |
20140055774 | DEFECT DETECTION METHOD - A defect detection method comprising, irradiating light from a light source in an optical system and obtaining a plurality of optical images of a sample having a repeated pattern of a size smaller than a resolution of the optical system; while changing the conditions of the optical system, performing correction processing for the optical images with the use of at least one of a noise filter and a convolution filter; shifting a position of the other optical images based on any of the plurality of optical images, obtaining a relationship between shift amounts of the other optical images and a change of correlation of a gray scale value between the plurality of optical images, and performing positional alignment of the optical images based on the shift amount obtained when the correlation is highest, performing defect detection of the sample with the use of the optical images after the positional alignment. | 02-27-2014 |
20140104412 | INSPECTION APPARATUS AND INSPECTION APPARATUS SYSTEM - A first output value evaluation device obtains an average value of output values of optical image data for each of unit regions and creates a distribution map of an average value in an inspected region. A first defect history management device creates a distribution map related with the shape of the pattern from the distribution map of the average value and holds the created distribution map. A second output value evaluation device obtains at least one of a variation value and deviation of the output value of each pixel in the unit region. A defect determination device compares the obtained value with a threshold value. A second defect history management device holds information of the output value determined as a defect in the defect determination device. A defect/defect history analysis device analyzes, and checks the information from the first defect history management device and the second defect history management device. | 04-17-2014 |
20140111636 | INSPECTION APPARATUS AND INSPECTION METHOD - An inspection apparatus comprising, a focal position detector that detects a reference focal position of an image plane of a sample from a variation of an output value in optical image data of the sample, the output value being acquired by changing a distance between a first lens and the sample, and detects an optimum focal position of an inspection from the reference focal position, an image processor that obtains at least one of either an average gradation value in each predetermined unit region or a variation of a gradation value in the unit region with respect to the optical image data obtained at the optimum focal position, and a defect detector that detects a defect of the sample based on at least one of either the average gradation value or the variation of the gradation value. | 04-24-2014 |
20140204202 | INSPECTION APPARATUS - An inspection apparatus comprising, an optical system emitting light having a predetermined wavelength, illuminating a sample while the light is converted into light having a polarization plane not in the range of −5 degrees to 5 degrees and 85 degrees to 95 degrees with respect to a direction of a repetitive pattern on the sample, an optical system for acquiring an image and forming said image on an image sensor using a lens, a half-wave plate, a first image sensor, a second image sensor, an inspection analyzer, wherein these differ in a transmission axis direction, a processor that obtains an average gray level and a standard deviation in each predetermined unit region of the image, and a defect detector, wherein a resolution limit defined by a wavelength of the light source and a numerical aperture of the lens is a value in which the pattern is not resolved. | 07-24-2014 |
20140240700 | SAMPLE SUPPORT APPARATUS - A sample support apparatus is provided in which a XY-table and a Z-table moving along a height direction are disposed in a Z-reference surface as a height reference, and in which a sample is disposed at a predetermined height position while supported by the Z-table, the sample support apparatus comprising, a height correction unit that controls movement of the Z-table, and a Z-sensor that is provided on the Z-reference surface to measure the height from the Z-reference surface, wherein a measuring surface is aligned along the same axis with respect to a measuring position of the sample, the height of the measuring surface from the Z-reference surface is measured by the Z-sensor, the height correction unit moves the Z-table according to the measured value of the height so that the sample is disposed at the predetermined height position. | 08-28-2014 |