Patent Number: 
Section: claims

1. A method of evaluating a resolution of a scanning electron microscope, comprising the steps of:picking up a first image of a concave and convex pattern formed on a surface of a sample and having such a sectional shape that a lower part of the concave and convex pattern is narrower than an upper part thereof, with the use of a first scanning electron microscope,picking up a second image of the concave and convex pattern on the sample with the use of a second scanning electron microscope, andrespectively 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. 2. A method of evaluating a resolution of a scanning electron microscope as set forth in claim 1, wherein the first image and the second image of the concave and convex pattern are those which do not substantially include data as to a side wall of the concave and convex pattern. 3. A method of evaluating a resolution of a scanning electron microscope as set forth in claim 1, wherein the first image obtained by picking up the concave and convex pattern with the use of the first scanning electron microscope and the second image obtained by picking up the concave and convex pattern with the used of the second scanning electron microscope, are each obtained by irradiating and scanning an electron beam which is converged so as to have a beam diverging angle smaller than an inclined angle of a side surface of the concave and convex pattern, in the vicinity of a beam waist thereof. 4. A method of evaluating a resolution of a scanning electron microscope as set forth in claim 1, wherein the concave and convex pattern has a backward tapered sectional shape. 5. A method of evaluating a resolution of a scanning electron microscope, comprising the steps of:picking up images of an concave and convex pattern formed on a surface of a sample and having such a sectional shape that a lower part of the concave and convex pattern is narrower than an upper part thereof, by successively using a plurality of scanning electron microscopes, in order to obtain a plurality of images of the concave and convex pattern;respectively processing the plurality images of the concave and convex pattern successively picked up by the plurality of scanning electron microscopes in order to evaluate unevenness in resolution among the plurality of scanning electron microscopes, andfinding a particular scanning electron microscope among the plurality of scanning electron microscopes, for adjusting microscope parameters with the use of a result of the evaluation of the unevenness in resolution. 6. A method of evaluating a resolution of scanning electron microscope as set forth in claim 5, wherein the plurality of images of the concave and convex pattern do not substantially include data as to a side wall of the concave and convex pattern. 7. A method of evaluating a resolution of a scanning electron microscope as set forth in claim 5, wherein the plurality of images of the concave and convex pattern picked up by the plurality of scanning electron microscopes are each obtained by irradiating and scanning an electron beam which is converged so as to have a beam diverging angle smaller than an inclined angle of a side surface of the concave and convex pattern, in the vicinity of a beam waist of the electron beam. 8. A method of evaluating a resolution of a scanning electron microscope as set forth in claim 5, wherein the concave and convex pattern has a backward tapered sectional shape. 9. A method of evaluating a resolution of a scanning electron microscope, comprising the steps of:picking up a first image of a concave and convex pattern formed on a surface of a sample and having such a sectional shape that a lower part of the concave and convex pattern is narrower than an upper pad thereof with the use of a scanning electron microscope,picking up a second image of the concave and convex pattern with the use of the said scanning electron microscope after a predetermined time elapses, andcomparing the first image and the second image with each other so as to evaluate an aging of resolution of the scanning electron microscope. 10. A method of evaluating a resolution of a scanning electron microscope as set forth in claim 9, wherein the first image and the second image of the concave and convex pattern do not substantially include data as to a side wall of the concave and convex pattern. 11. A method of evaluating a resolution of a scanning electron microscope as set forth in claim 9, wherein the first image obtained by picking up an image of the concave and convex pattern with the used of the scanning electron microscope and the second image obtained by picking up an image of the concave and concave pattern with the use of the same scanning electron microscope after the predetermined time elapses, are obtained by irradiating and scanning an electron beam which is converged so as to have a beam diverging angle smaller than an inclined angle of a side surface of the concave and convex pattern, in the vicinity of a beam waist of the electron beam. 12. A method of evaluating a resolution of a scanning electron microscope as set forth in claim 9, wherein the concave and convex pattern has a backward tapered sectional shape. 13. A scanning electron microscope comprising:an electron beam irradiating optical system means for irradiating and scanning a converged electron beam on a sample,a detection means for detecting secondary electrons which are produced from the sample by irradiating and scanning the converged electron beam on the sample by the electron beam irradiating optical system means,an A/D conversion means for carrying out A/D conversion of a signal detected by the detection means,an image forming means for processing a digital signal converted by the A/D conversion means so as to obtain an image of the concave and convex pattern, andan image processing means for processing the image formed by the image forming means,wherein the image processing means includes an image resolution correcting portion for correcting a resolution of the image of the sample obtained by the image forming means with the use of data of resolution which is obtained by processing an image of a concave and convex pattern formed on a surface of a sample and having such a sectional shape that a lower part of the concave and convex pattern is narrower than an upper part thereof. 14. A scanning electron microscope as set forth in claim 13, wherein the image resolution correcting portion causes an image filter to act upon the image of the sample obtained by the image forming means so as to correct the resolution of the image of the sample. 15. A scanning electron microscope as set forth in claim 13, wherein the image resolution correcting portion adds offsets to dimensions of the pattern on the sample, which are measured from the image obtained by the image forming means, so as to correct the resolution of the image of the sample.