Abstract: A high-accuracy image correction device adaptable for use in pattern inspection apparatus is disclosed. The device includes a correction region designation unit which designates a correction region including a pattern and its nearby portion within each of an inspection reference pattern image and a pattern image under test. The device also includes an equation generator which generates by linear predictive modeling a set of simultaneous equations for a reference pattern image within the correction region and an under-test pattern image within the correction region, a parameter generator for solving the equations to obtain more than one model parameter, and a corrected pattern image generator for using the model parameter to apply the linear predictive modeling to the reference pattern image to thereby generate a corrected pattern image. A pattern inspection method using the image correction technique is also disclosed.

Abstract: An image correction device for use in pattern inspection apparatus is disclosed. This device includes a pattern extraction unit for extracting a pattern, as a cut-and-paste pattern, from a pattern existence region of an inspection reference pattern image and a pattern image of a workpiece being tested. The device also includes a pattern pasting unit for pasting the cut-and-paste pattern in blank regions of the reference and under-test pattern images to thereby create a pasted reference pattern image and a pasted test pattern image. The device further includes an equation generator for generating by linear predictive modeling a set of simultaneous equations relative to the pasted reference and test pattern images, a parameter generator for solving these equations to obtain a model parameter(s), and a unit for creating a corrected pattern image by the linear predictive modeling using the model parameter(s).

Abstract: An image correction device for use in a pattern inspection apparatus is disclosed, which has automatic adaptability to variations in density of a pattern image of a workpiece being tested. The device is operable to identify a two-dimensional (2D) linear predictive model parameters from the pattern image of interest and determine the value of a total sum of these identified parameters. This value is then used to switch between a corrected pattern image due to the 2D linear prediction modeling and a corrected image that is interpolated by bicubic interpolation techniques. A pattern inspection method using the image correction technique is also disclosed.

Abstract: A lightweight and inexpensive mask inspection apparatus having highly efficient environmental radiation resistance is provided. The mask inspection apparatus is a mask inspection apparatus for inspecting for mask defects and includes a light source, an illuminating optical system configured to irradiate a mask with an inspection light emitted from the light source, a magnifying optical system configured to cause the inspection light with which the mask is irradiated to form an image as an optical image, and image sensor configured to acquire the optical image. The image sensor has an environmental radiation shielding member of heavy metal having a specific gravity equal to or greater than that of tantalum (Ta) at least on a side opposite to a receiving surface of a sensor chip.

Abstract: A light polarization control apparatus includes a linear polarized light generation device for generating a linearly polarized light ray; and a pair of first and second four-division type half-wave plate located at front and back positions of a light axis, each said half-wave plate having a surface divided into four regions by a couple of boundary lines crossing together at right angles, wherein the linearly polarized light ray is guided to pass through said pair of first and second four-division type half-wave plate to thereby divide this light ray into eight areas each having its polarization state as converted to any one of a azimuthally polarized state and a radially polarized state.

Abstract: A workpiece inspection apparatus includes a measured image generator unit configured to measure a pattern of a workpiece and generate a measured image; and a comparator unit configured to compare the measured image to a fiducial image, wherein said measured image generator unit includes a light-receiving device having an interconnection of two or more time delay integration (TDI) sensors each being arranged by two or more line sensors each being arranged by two or more pixels, for generating as the measured image an average value of pixel values excluding an abnormal pixel value from pixels of each TDI sensor with respect to a position of the pattern of the workpiece.

Abstract: A pattern inspection apparatus includes a magnification conversion unit configured to input first sample optical image data, and to convert the first sample optical image data to second sample optical image data which has a resolution N times that of the first sample optical image data, a low-pass filter configured to input first design image data which has a resolution N times that of the first sample optical image data and in which a gray level value corresponding to the first sample optical image data is defined, and to calculate second design image data by convolving the first design image data with a predetermined low-pass filtering function, an optical filter configured to calculate third design image data by convolving the second design image data with a predetermined optical model function, a coefficient acquisition unit configured to acquire a coefficient of the predetermined optical model function by performing a predetermined calculation by using the second sample optical image data and the third d

Abstract: The present invention provides an apparatus and method for correcting an inspection reference pattern image in order to properly inspect a pattern image of a specimen. The pattern image correcting apparatus is characterized by including: a first pattern synthesizing unit for synthesizing an assist pattern image and a pattern image to be inspected, thereby generating a pattern image to be inspected with an assist pattern; an assist pattern shift processor; a second pattern synthesizing unit for synthesizing the shifted assist pattern image and the inspection reference pattern image, thereby generating an inspection reference pattern image with an assist pattern; a model generating unit for generating a position shift model by using the pattern image to be inspected with the assist pattern and the inspection reference pattern image with the assist pattern; and a correction pattern image computing unit for correcting the inspection reference pattern image.

Abstract: A sample inspection apparatus according to an aspect of the present invention includes a first SSD calculating unit which calculates the displacement amount from a preliminary alignment position of an optical image and a reference image to a position where the SSD of a pixel value of the optical image and a pixel value of the reference image is minimized, and a least-square method calculating unit which calculates the displacement amount by a least-square method from the preliminary alignment position of the optical image and the reference image, wherein the alignment position of the optical image and the reference image is corrected to a position where the smaller SSD of the minimum SSD obtained as the result of the calculation by the first SSD calculating unit and the SSD obtained as the result of the calculation by the determined by the least-square method calculating unit is obtained.

Abstract: An image correction device for use in a pattern inspection apparatus is disclosed, which has automatic adaptability to variations in density of a pattern image of a workpiece being tested. The device is operable to identify a two-dimensional (2D) linear predictive model parameters from the pattern image of interest and determine the value of a total sum of these identified parameters. This value is then used to switch between a corrected pattern image due to the 2D linear prediction modeling and a corrected image that is interpolated by bicubic interpolation techniques. A pattern inspection method using the image correction technique is also disclosed.

Abstract: A method of operating a laser light source including a wavelength conversion device in which two wavelength laser beams are input to a nonlinear crystal to output a sum frequency wavelength, according to one embodiment includes inputting only one wavelength laser beam of the two input wavelength laser beams to the nonlinear crystal; measuring scattered light intensity of the one wavelength laser beam by a light sensitive sensor installed on an optical axis of the sum frequency wavelength output beam; and judging a damage state of the nonlinear crystal based on a measurement value obtained of the intensity measurement by the light sensitive sensor.

Abstract: An image correction method having a small number of setting parameters achieved by integrating shift (alignment) in unit of a sub-pixel and image correction. A relationship between an inspection reference pattern image and a pattern image under test is identified, a mathematical expression model which fits a pixel error, expansion and contraction/distortion noise, and sensing noise of the image is constructed, and the model is simulated to generate an estimation model image.

Abstract: An illumination beam irradiation apparatus for use in pattern inspection systems is disclosed, which is less in deterioration of optical components and in attenuation of illumination light. The illumination apparatus includes a light source which yields a fundamental wave, a beam-shaper unit which performs beam-shaping of the fundamental wave so that this wave has a prespecified shape, and a pattern generator unit which operates, upon receipt of the beam-shaped fundamental wave, to convert this incoming wave into illumination light with a shorter wavelength to thereby generate illumination light of a prespecified shape. The illuminator also includes an image relay unit for guiding the illumination light that was generated by the pattern generator to fall onto a workpiece under inspection, such as a photomask or else.

Abstract: Provided are a mask for EUV exposure and a mask blank for EUV exposure for manufacturing the same, so as to improve the contrast of ultraviolet inspection light and improve the inspection performance for the mask. This mask blank for EUV exposure includes a substrate, a reflecting layer which is provided on the substrate and reflects EUV light, and an absorbent layer which is provided on the reflecting layer and absorbs EUV light. Reflectance of light at a wavelength between 150 nm and 300 nm is greater at the absorbent layer than that of the reflecting layer. The mask for EUV exposure can be manufactured by processing this mask blank for EUV exposure.

Abstract: A pattern inspection apparatus is disclosed, which includes a first laser light source for emission of first laser light having a first wavelength, a second laser light source for emission of second laser light having a second wavelength, and a deep ultraviolet (DUV) light source for emission of DUV light with a wavelength of less than or equal to 266 nm based on the first laser light and the second laser light. A first optical fiber is provided for connecting between the first laser light source and the DUV light source. A second optical fiber is for connection between the second laser light source and the DUV light source. The apparatus also includes a pattern inspection unit with the DUV light source being built therein, for inspecting a workpiece pattern being tested by using the DUV light as illumination light therefor.

Abstract: A level detection apparatus includes an illumination slit in which a rectangular first opening which causes illumination light to pass is formed, an optical system configured to illuminate a target object surface by illumination light passing through the illumination slit and focuses reflected light from the target object surface, first and second detection slits which are arranged in front of and in back of a focal point and in each of which a second opening is formed such that a short side of a rectangle is shorter than a short side of a illumination slit image formed by the illumination slit and a long side of the rectangle is larger than a long side of the illumination slit image, first and second light amount sensors configured to detect amounts of light of the reflected lights passing through the first and second detection slits, and a calculating unit configured to calculate a level of the target object surface based on outputs from the first and second light amount sensors.

Abstract: An image correction device for use in a pattern inspection apparatus is disclosed, which has automatic adaptability to variations in density of a pattern image of a workpiece being tested. The device is operable to identify a two-dimensional (2D) linear predictive model from the pattern image of interest and determine the amount of eccentricity of a centroid position of this model. This amount is then used to switch between a corrected pattern image due to the 2D linear prediction modeling and a corrected image that is interpolated by bicubic interpolation techniques. A pattern inspection method using the image correction technique is also disclosed.

Abstract: A wavelength converter system capable of replacing a nonlinear crystal in a wavelength converter in a short time with ease is provided. The wavelength converter system includes the wavelength converter for converting a wavelength by passing light through the nonlinear crystal and a crystal storage apparatus for storing a nonlinear crystal for replacement used by the wavelength converter, wherein the wavelength converter has a first crystal holder for fixing the nonlinear crystal and a first heater for heating the nonlinear crystal and the crystal storage apparatus has a container, a second crystal holder that is in the container to fix the nonlinear crystal for replacement and interchangeable with the first crystal holder, and a second heater for heating the nonlinear crystal for replacement.

Abstract: A reticle defect inspection apparatus that suppresses deterioration of optical components resulting from luminescent spots generated by an integrator and can sustain a defect inspection with high precision for a long time is provided. The reticle defect inspection apparatus is a reticle defect inspection apparatus for inspecting for defects on a reticle using a pattern image obtained by irradiating the reticle on which a pattern is formed with light. And the apparatus includes an illuminating optical system for irradiating the reticle with an inspection light and a detecting optical system for detecting a pattern image of the reticle irradiated with the inspection light, wherein the illuminating optical system comprises an integrator for equalizing illumination distribution of the inspection light and a moving mechanism for enabling the integrator to slightly move in a direction perpendicular to an optical axis of the integrator.

Abstract: A reticle defect inspection apparatus that controls damage of a reticle by irradiation with an inspection light when the reticle is caused to be at rest is provided. The reticle defect inspection apparatus is a reticle defect inspection apparatus for inspecting for defects on a reticle using a pattern image obtained by irradiating the reticle on which a pattern is formed with light. The reticle defect inspection apparatus has a dose monitoring part for measuring a dose of the light to the reticle, a comparing part for comparing, after calculating accumulated irradiation from the dose measured by the dose monitoring part, the accumulated irradiation with a preset threshold, and a stop mechanism for stopping irradiation of the reticle with the light when, as a result of the comparison, the accumulated irradiation exceeds the threshold.