Patent Number: 
Section: claims

1. An electron microscope system, comprising:electron beam image obtaining means for obtaining an image of a specimen having a resist pattern formed on a surface thereof using a scanning electron microscope;quantifying means for quantifying a feature of variations in brightness of the image at a desired area of the resist pattern by processing the obtained image;index value calculating means for calculating an index value for relating the feature of variations in brightness of the image quantified by the quantifying means to an amount of reduction from a reference value of a film thickness of the resist pattern; andestimation means for estimating the amount of reduction from the reference value of the film thickness of the resist pattern using the index value calculated by the index value calculating means,wherein the index value is correlated with changes in roughness of a surface of the resist pattern at the desired area, andfurther comprising means for verifying the calculated index value against a database which registers a relationship between film thickness reduction index values and amounts of film thickness reduction of resist patterns or a relationship between an etching bias and film thickness reduction index values. 2. The electron microscope system according to claim 1, wherein the index value calculating means calculates the index value for relating the feature of variations in brightness of the image quantified by the quantifying means to the amount of reduction from the reference value which is the film thickness of the resist pattern formed by being exposed under a normal exposure condition. 3. The electron microscope system according to claim 1, wherein the estimation means estimates an amount of film thickness reduction of the resist pattern by applying the index value calculated by the index value calculation means to a database previously made and stored for relating an index value for a resist pattern having a reference film thickness to an amount of film thickness reduction of the resist pattern. 4. The electron microscope system according to claim 1, wherein the index value having a correlation with the amount of film thickness reduction calculated from the electron microscope image is a quantified degree of roughness of the desired area of the resist pattern caused by a phenomenon of the film thickness of the resist pattern with respect to the reference thickness of the resist pattern as a reference. 5. The electron microscope system according to claim 1, wherein the index value having the correlation with the amount of film thickness reduction calculated from the electron microscope image is a quantified average brightness of the desired area of the resist pattern. 6. The electron microscope system according to claim 1, wherein the index value having the correlation with the amount of film thickness reduction calculated by the electron microscope image is a quantified distribution of the brightness of the desired area of the resist pattern. 7. The electron microscope system according to claim 1,wherein the film thickness reduction index values comprise standard deviations of a brightness variation of projected waveform of the image of a specimen. 8. The electron microscope system according to claim 1,wherein the film thickness reduction index values comprise σ values or centers of a normal distribution applied to a brightness histogram of the image of a specimen. 9. The electron microscope system according to claim 1,wherein the film thickness reduction index values comprise minimum values of a center of a waveform of the image of a specimen. 10. The electron microscope system according to claim 1, wherein the roughness of the surface of the resist pattern is determined by a texture analysis in which a power spectrum of an area corresponding to an upper position in image is determined, and the roughness of a texture is quantified from frequency properties of the power spectrum. 11. A method for evaluating film thickness reduction of a resist pattern using an electron microscope system, comprising:obtaining an image of a specimen having a resist pattern formed on a surface thereof using a scanning electron microscope;quantifying a feature of variations in brightness of the image at a desired area of the resist pattern by processing the obtained image;calculating an index value for relating the feature of variations in brightness of the image quantified by the quantifying step to an amount of reduction from a reference value of a film thickness of the resist pattern; andestimating the amount of reduction from the reference value of the film thickness of the resist pattern using the index value calculated by the index value calculating step,wherein the index value is correlated with changes in roughness of a surface of the resist pattern at the desired area, andfurther comprising verifying the calculated index value against a database which registers a relationship between film thickness reduction index values and amounts of film thickness reduction of resist patterns or a relationship between an etching bias and film thickness reduction index values. 12. The method according to claim 11, wherein the index value calculating step calculates the index value for relating the feature of variations in brightness of the image quantified by the quantifying step to the amount of reduction from the reference value which is the film thickness of the resist pattern formed by being exposed under a normal exposure condition. 13. The method according to claim 11, wherein the estimation step estimates an amount of film thickness reduction of the resist pattern by applying the index value calculated by the index value calculation step to a database previously made and stored for relating an index value for a resist pattern having a reference film thickness to an amount of film thickness reduction of the resist pattern. 14. The method according to claim 11, wherein the index value having a correlation with the amount of film thickness reduction calculated from the electron microscope image is a quantified degree of roughness of the desired area of the resist pattern caused by a phenomenon of the film thickness of the resist pattern with respect to the reference thickness of the resist pattern as a reference. 15. The method according to claim 11, wherein the index value having the correlation with the amount of film thickness reduction calculated from the electron microscope image is a quantified average brightness of the desired area of the resist pattern. 16. The method according to claim 11, wherein the index value having the correlation with the amount of film thickness reduction calculated by the electron microscope image is a quantified distribution of the brightness of the desired area of the resist pattern. 17. The method according to claim 11,wherein the film thickness reduction index values comprise standard deviations of a brightness variation of projected waveform of the image of a specimen. 18. The method according to claim 11,wherein the film thickness reduction index values comprise σ values or centers of a normal distribution applied to a brightness histogram of the image of a specimen. 19. The method according to claim 11,wherein the film thickness reduction index values comprise minimum values of a center of a waveform of the image of a specimen. 20. The method according to claim 11, wherein the roughness of the surface of the resist pattern is determined by a texture analysis in which a power spectrum of an area corresponding to an upper position in image is determined, and the roughness of a texture is quantified from frequency properties of the power spectrum.