| Patent application number | Description | Published |
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| 20080197280 | METHOD AND APPARATUS FOR MEASURING PATTERN DIMENSIONS - It is difficult for a material having low resistance to electron beam irradiation to obtain an electron microscopic image having a high S/N ratio. A conventional image smoothing process can improve stability of measurement, but this process has a problem of measurement errors for absolute values, reduction of sensitivity, deterioration of quality of cubic shape information and the like. In the present invention, by performing an image averaging process without deteriorating cubic shape information of a signal waveform in consideration of dimension deviation of a measurement target pattern, measurement stability is compatible with improvement of precision and sensitivity. Accordingly, it is possible to realize measurement of pattern dimensions and shapes with high precision and control of a highly sensitive semiconductor manufacturing process using the measurement. | 08-21-2008 |
| 20080237456 | Method And Apparatus For Observing A Specimen - A method and device for observing a specimen, in which a convergent electron beam is irradiated and scanned from a desired direction, on a surface of a calibration substrate on which a pattern with a known shape is formed, and a beam SEM image of the pattern formed on the calibration substrate is obtained. An actual direction of the electron beam irradiated on the surface of the calibration substrate is calculated by use of the information about an apparent geometric deformation of the known shape on the SEM image, and the actual direction of the electron beam to the desired is adjusted direction by using information of the calculated direction. The pattern with the known shape formed on the calibration substrate has a crystal plane formed by anisotropic chemical etching | 10-02-2008 |
| 20080291437 | METHOD OF INSPECTING A SEMICONDUCTOR DEVICE AND AN APPARATUS THEREOF - A method and apparatus of inspecting a sample, in which the sample is inspected under a plurality of inspection conditions, and inspection data obtained by inspecting the sample under each of the plurality of inspection conditions and position information on the sample of the inspection date in correspondence with the respective inspection conditions, are stored. The inspection data for each of the plurality of inspection conditions is against each other by the use of the position information on the sample to determine a position to be inspected in detail, and an image of the sample at a position to be inspected in detail is obtained. The obtained image is classified, the inspection condition of the sample by the use of information of classification of the image is determined. | 11-27-2008 |
| 20100133426 | Sample and method for evaluating resolution of scanning electron microscope, and electron scanning microscope - A method of evaluating a resolution of a scanning electron microscope includes picking up a first image of a concave and convex pattern formed on a surface of a sample utilizing a first scanning electron microscope, picking up a second image of the concave and convex pattern on the sample utilizing a second scanning electron microscope, respectively processing the first image and the second image in order to evaluate unevenness in resolution between the first scanning electron microscope and the second scanning electron microscope, and determining whether a height of the concave and convex pattern as measured from a bottom thereof is sufficient so that no affection by a secondary electron emitted from the bottom of the concave and convex pattern is exhibited. | 06-03-2010 |
| 20100140474 | METHOD OF INSPECTING A SEMICONDUCTOR DEVICE AND AN APPARATUS THEREOF - A method and apparatus of inspecting a sample, in which the sample is inspected under a plurality of inspection conditions, and inspection data obtained by inspecting the sample under each of the plurality of inspection conditions and position information on the sample of the inspection date in correspondence with the respective inspection conditions, are stored. The inspection data for each of the plurality of inspection conditions is against each other by the use of the position information on the sample to determine a position to be inspected in detail, and an image of the sample at a position to be inspected in detail is obtained. The obtained image is classified, the inspection condition of the sample by the use of information of classification of the image is determined. | 06-10-2010 |
| 20100246933 | Pattern Inspection Method And Apparatus - An apparatus for processing a defect candidate image, including: a scanning electron microscope for taking an enlarged image of a specimen by irradiating and scanning a converged electron beam onto the specimen and detecting charged particles emanated from the specimen by the irradiation; an image processor for processing the image taken by the scanning electron microscope to detect defect candidates on the specimen and classify the detected defect candidates into one of plural classes; a memory for storing output from the image processor including images of the detected defect candidates; and a display unit which displays information stored in the memory and an indicator, wherein the display unit displays a distribution of the detected and classified defect candidates in a map format by distinguishing by the classified class, and the display unit also displays an image of a defect candidate stored in the memory together with the map which is indicated on the map by the indicator. | 09-30-2010 |
| Patent application number | Description | Published |
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| 20080319696 | Method and Its System for Calibrating Measured Data Between Different Measuring Tools - The present invention relates to a method and its system for calibrating measured data between different measuring tools. A method of calibrating measured data between different measuring tools includes the steps of: measuring the CD average dimension and roughness of an object to be measured using a CD-SEM tool; calculating the number of the cross section measurement points required for calibration by statistically processing the roughness; measuring the cross section of the object to be measured using the cross section measuring tool to satisfy the number of the cross section measurement points, thereby calculating the CD average dimension of the cross section measurement height specified in the obtained cross section measurement result; and calculating a calibration correction value being a difference between the CD average dimension of the object and the CD average dimension of the cross section measurement height of the object. | 12-25-2008 |
| 20090212211 | Electron Microscope System and Method for Evaluating Film Thickness Reduction of Resist Patterns - The invention provides a system for achieving detection and measurement of film thickness reduction of a resist pattern with high throughput which can be applied to part of in-line process management. By taking into consideration the fact that film thickness reduction of the resist pattern leads to some surface roughness of the upper surface of the resist, a film thickness reduction index value is calculated by quantifying the degree of roughness of the part corresponding to the upper surface of the resist on an electron microscope image of the resist pattern which has been used in the conventional line width measurement. The amount of film thickness reduction of the resist pattern is estimated by applying the calculated index value to a database previously made for relating a film thickness reduction index value to an amount of film thickness reduction of the resist pattern. | 08-27-2009 |
| 20090212212 | Scanning Electron Microscope system and Method for Measuring Dimensions of Patterns Formed on Semiconductor Device By Using the System - The present invention is for providing a scanning electron microscope system adapted to output contour information fitting in with the real pattern edge end of a sample, and is arranged to generate a local projection waveform by projecting the scanning electron microscope image in the tangential direction with respect to the pattern edge at each point of the pattern edge of the scanning electron microscope image, estimate the cross-sectional shape of the pattern transferred on the sample by applying the local projection waveform generated at each point to a library, which has previously been created, correlating the cross-sectional shape with the electron beam signal waveform, obtain position coordinate of the edge end fitting in with the cross-sectional shape, and output the contour of the pattern as a range of position coordinates. | 08-27-2009 |
| 20090212215 | SCANNING ELECTRON MICROSCOPE AND METHOD OF MEASURING PATTERN DIMENSION USING THE SAME - In dimension measurement of semiconductor pattern by CD-SEM, the error value between dimensional measurement value and actual dimension on the pattern is much variational as it is dependent on the cross-sectional shape of the pattern, and a low level of accuracy was one time a big problem. In the present invention, a plurality of patterns, each different in shape, were prepared beforehand with AFM measurement result and patterns of the same shape measured by CD-SEM. These measurement results and dimensional errors were homologized with each other and kept in a database. For actual measurement of dimensions, most like side wall shape, and corresponding CD-SEM measurement error result are called up, and the called-up error results are used to correct CD-SME results of measurement object patterns. In this manner, it becomes possible to correct or reduce dimensional error which is dependent on cross-sectional shape of the pattern. | 08-27-2009 |
| 20090214103 | METHOD FOR MEASURING A PATTERN DIMENSION - In SEM image based pattern measurement using electron beam simulation, accuracy of simulation is very influential. For matching between a simulated image and an actual image, it is needed to properly model the shape and material of a target being measured and reflect them in simulated images. In the present invention, highly accurate pattern measurements are achieved by using simulated images with properly set parameters of shape and dimension having a large influence on the accuracy of matching for measurement between simulated and actual images, based on SEM images or information obtained by another measurement apparatus such as AFM. | 08-27-2009 |
