Patent Number: 
Section: claims

1. A scanning electron microscope system comprising:input means for inputting pattern design data of a pattern to be formed on a photomask designed by taking an optical proximity effect into account;SEM image acquiring means for acquiring a SEM image of a resist pattern formed by exposing a resist film coated on a surface of a substrate with light through the photomask;simulating means for simulating a circuit pattern to be formed on a substrate by using the pattern design data inputted by the input means;superposing means for superposing the SEM image of the resist pattern formed by the SEM image acquiring means and the simulated circuit pattern formed by the simulating means;geometrical feature extracting means for extracting one- or two-dimensional geometrical features indicating differences between the superposed SEM image and the simulated circuit pattern; andevaluating index calculating means for calculating evaluation indices for evaluating a correction of the optical proximity effect of the mask pattern formed on the photomask by using information about the one- or two-dimensional geometrical features provided by the feature extracting means. 2. The dimension measuring scanning electron microscope system according to claim 1, wherein the geometrical features to be extracted by the feature extracting means includes all or some of widths of component lines of a circuit pattern, distance between a design position of an end part of the circuit pattern and an actual position of the same end part of the circuit pattern receded from the design position, interpattern distance between adjacent circuit patterns, rounding degree of a corner of the circuit pattern, radius of a circular pattern in the circuit pattern, ratio between major and minor axes of an elliptic pattern in the circuit pattern, and area of the circuit pattern. 3. The dimension measuring scanning electron microscope system according to claim 1 further comprising an exposure simulator including an input means for entering design data on the exposure circuit pattern and exposure conditions and capable of calculating data on a transfer circuit pattern to be formed when the substrate is exposed to design data on the exposure circuit pattern on the basis of the design data on the exposure circuit pattern and the exposure conditions entered by the input means, wherein the evaluation index calculating means calculates data on the positional relation between the transfer circuit pattern and the SEM image of the exposure circuit pattern by subjecting the data on a transfer circuit pattern obtained by the exposure simulator and the SEM image of the exposure circuit pattern to an aligning process, and the design data on the exposure circuit pattern and the data on the SEM image of the exposure circuit pattern are superposed by replacing the calculated data on the transfer circuit pattern with the design data on the exposure circuit pattern. 4. The dimension measuring scanning electron microscope system according to claim 3, wherein the calculated data on the simulated circuit pattern calculated by the exposure simulator is data on a shape of a section formed by cutting a light intensity distribution on a plane corresponding to a proper light intensity or data on a shape of a section in close resemblance with the SEM image of the mask pattern among shapes of sections formed by cutting the light intensity distribution on planes corresponding to different light intensities respectively. 5. The dimension measuring scanning electron microscope system according to claim 1, wherein the evaluation index calculating means includes a display means for displaying an image formed by superposing part of or all the images defined by the data on the SEM image of the mask pattern and the design data on the mask pattern. 6. The dimension measuring scanning electron microscope system according to claim 1, wherein the evaluation index calculating means includes a display means for displaying quantities of some of or all the geometrical features. 7. A circuit pattern evaluating system comprising:input means for inputting design data on a mask pattern formed on a photomask;SEM image acquiring means for acquiring a SEM image of a resist pattern formed by exposing a resist film coated on a substrate with light through the photomask on which the mask pattern is formed;simulating means for simulating a pattern to be formed on the substrate by using the inputted design data on the mask pattern;matching means for superposing the SEM image of the resist pattern acquired by the SEM image acquiring means and the pattern simulated by the simulating means;resist pattern evaluating means for evaluating a quality of the resist pattern by determining differences between the superposed SEM image of the resist pattern and the simulated pattern; anddisplay means for displaying information obtained by the resist pattern evaluating means on a screen. 8. The circuit pattern evaluating system according to claim 7 the resist pattern evaluating means evaluates the resist pattern in terms of all or some of widths of component lines of a circuit pattern, distance between a design position of an end part of the circuit pattern and an actual position of the same end part of the circuit pattern receded from the design position, interpattern distance between adjacent circuit patterns, rounding degree of a corner of the circuit pattern, radius of a circular pattern in the circuit pattern, ratio between major and minor axes of an elliptic pattern in the circuit pattern, and area of the circuit pattern. 9. The circuit pattern evaluating system according to claim 7, wherein the simulating means calculates a light intensity distribution when the mask pattern is used for exposure, and uses a shape of a section formed by cutting the light intensity distribution on a plane corresponding to a proper light intensity or a shape of a section in close resemblance with a measured image of the mask pattern among shapes of sections formed by cutting the light intensity distribution on planes corresponding to different light intensities respectively, as a simulated circuit pattern. 10. The circuit pattern evaluating system according to claim 7, wherein the display means displays an image formed by partly or totally superposing the SEM image of the resist pattern and the simulated circuit pattern formed by the simulating means by the matching means. 11. The circuit pattern evaluating system according to claim 7 further comprising a warning means for giving a warning when deviations of parts of the SEM image of the resist pattern from corresponding parts of the simulated circuit pattern representing the quality of the resist pattern are outside corresponding tolerances. 12. A circuit pattern evaluating method comprising the steps of:inputting design data of a pattern to be formed on a photomask by taking an optical proximity effect into account;acquiring a SEM image of a resist pattern formed by exposing a resist film coated on a substrate with light through a photomask on which a mask pattern is formed by using the design data of the pattern;simulating a circuit pattern to be formed on the substrate from the inputted design data of the photomask;superposing the SEM image of the resist pattern and the simulated circuit pattern;extracting one- or two-dimensional geometrical features indicating differences between the SEM image and the simulated circuit pattern from the superposed SEM image and the simulated circuit pattern; andcalculating evaluation indices for evaluating a corrected optical proximity effect of the mask pattern formed on the photomask by using information on the one- or two-dimensional geometrical features extracted by the step of extracting one- or two-dimensional geometrical features. 13. The circuit pattern evaluating method according to claim 12, wherein the information about the geometrical features used by the step of calculating the evaluation indices includes all or some of widths of component lines of a circuit pattern, distance between a design position of an end part of the circuit pattern and an actual position of the same end part of the circuit pattern receded from the design position, interpattern distance between adjacent circuit patterns, rounding degree of a corner of the circuit pattern, radius of a circle in the circuit pattern, ratio between major and minor axes of an elliptic pattern in the circuit pattern, and area of the circuit pattern. 14. The circuit pattern evaluating method according to claim 12, the step of entering the design data enters also exposure conditions for exposing the substrate to exposure radiation, and the step of forming a simulated circuit pattern forms a simulated pattern that is expected to be formed on the substrate when the mask pattern defined by the entered design data on the design mask pattern and the exposure conditions are used for exposure. 15. The circuit pattern evaluating method according to claim 14, wherein the exposure conditions entered in the step of entering the design data includes wavelength of exposure radiation, numerical aperture of an objective lens, apparent size of a light source and at least one of pieces of information about defocus. 16. A circuit pattern evaluating method comprising the steps of:inputting design data on a mask pattern to be formed on a photomask;acquiring a SEM image of a resist pattern formed by exposing a resist film coated on a substrate with light through a photomask on which the mask pattern is formed;simulating a circuit pattern to be formed on the substrate by using the inputted design data on the mask pattern;superposing the SEM image of the resist pattern and the simulated circuit pattern;evaluating a quality of the resist pattern on the basis of differences between the SEM image and the simulated circuit pattern derived from the superposed SEM image and the simulated circuit pattern; anddisplaying results of evaluation of the quality of the resist pattern. 17. The circuit pattern evaluating method according to claim 16, wherein the step of evaluating the quality of the resist pattern evaluates the resist pattern in terms of all or some of widths of component lines of a circuit pattern, distance between a design position of an end part of the circuit pattern and an actual position of the same end part of the circuit pattern receded from the design position, interpattern distance between adjacent circuit patterns, rounding degree of a corner of the circuit pattern, radius of a circular pattern in the circuit pattern, ratio between major and minor axes of an elliptic pattern in the circuit pattern, and area of the circuit pattern. 18. The circuit pattern evaluating method according to claim 16, wherein the step of forming a simulated circuit pattern calculates a light intensity distribution when the mask pattern is used for exposure, and uses a shape of a section formed by cutting the light intensity distribution on a plane corresponding to a proper light intensity or a shape of a section in close resemblance with a measured image of the mask pattern among shapes of sections formed by cutting the light intensity distribution on planes corresponding to different light intensities respectively, as a simulated circuit pattern. 19. The circuit pattern evaluating method according to claim 16, wherein the step of displaying results of evaluation of the quality of the resist pattern displays an image formed by partly or totally superposing the SEM image of the resist pattern and the simulated circuit pattern formed by the simulating means by the matching means. 20. The circuit pattern evaluating method according to claim 16, wherein the step of evaluating the quality of the resist pattern gives a warning when deviations of parts of the SEM image of the resist pattern from corresponding parts of the simulated circuit pattern representing the quality of the resist pattern are outside corresponding tolerances.