Patent Number: 
Section: claims

1. A standard member for calibration for calibrating a scanning electron microscope, comprising:a multilayer film cross section formed by alternately laminating materials different from each other;a plurality of first mark patterns arranged across a first silicon layer and in parallel to the multilayer film cross section;at least a pair of second mark patterns arranged across a second silicon layer thicker than the first silicon layer on an opposite side of the first mark patterns with respect to the multilayer film cross section and in parallel to the multilayer film cross section; anda silicon layer arranged on an outer side of the first mark patterns and the second mark patterns with respect to the multilayer film cross section,the multilayer film cross section, the first mark patterns, the second mark patterns, and the silicon layer being provided on the same plane. 2. The standard member for calibration according to claim 1, whereinthe multilayer film cross section is a magnification calibration pattern region,the first mark patterns are concave-shape reference marks for detecting a position of the magnification calibration pattern region, andthe second mark patterns are concave-shape reference marks for detecting the first mark patterns. 3. The standard member for calibration according to claim 1, whereinthe multilayer film cross section and the second mark patterns are formed on a first substrate,the first mark patterns are formed on a second substrate,the multilayer film cross section side, which is a surface of the first substrate, and the first mark pattern side, which is a surface of the second substrate, are joined, andthe silicon layer located on the outer side of the first mark patterns and the second mark patterns with respect to the multilayer film cross section is a silicon substrate that fixes the joined substrate. 4. The standard member for calibration according to claim 3, wherein the first substrate and the second substrate are joined by direct joining by normal temperature joining. 5. The standard member for calibration according to claim 3, wherein the sample cross section is a cross section formed by dicing and polishing. 6. The standard member for calibration according to claim 3, wherein the first substrate and the second substrate are a combination of single crystal substrates containing silicon or a combination of amorphous substrates containing silicon. 7. The standard member for calibration according to claim 3, wherein the surface of the first substrate and the surface of the second substrate are silicon layers. 8. The standard member for calibration according to claim 3, whereinthe multilayer film cross section is a multilayer film cross section formed by convexo-concave patterns obtained by laminating silicon and silicon oxide films on a substrate surface at a predetermined lamination pitch and selectively etching one material, andthe first mark patterns are silicon groove patterns periodically formed at a predetermined pitch in a direction horizontal to a cross section and formed in a direction perpendicular to the cross section, a silicon oxide film being formed on the first mark patterns. 9. The standard member for calibration according to claim 8, wherein the plurality of first mark patterns are grouped for each predetermined number, and the groups are arranged at a predetermined interval. 10. The standard member for calibration according to claim 9, wherein the predetermined interval of the groups is integer times of a pitch linewidth for the each predetermined number. 11. The standard member for calibration according to claim 3, wherein a standard member for calibration is configured by combining at least a pair or more of the joined substrates of the first substrate and the second substrate joined on a surface of the multilayer film, and the pair of joined substrates are arrayed at a right angle each other and cross in a center of the standard member for calibration. 12. A method of manufacturing a standard member for calibration for calibrating, from information concerning secondary electron or reflection electron intensity generated by scanning an incident electron beam in an observation region on a measurement sample, a scanning electron microscope that measures a pattern in the observation region, the method comprising:a step of alternately laminating materials different from each other on a first silicon substrate surface to manufacture a first substrate, which is a multilayer film cross section on which a silicon layer is formed as a top layer;a step of forming a plurality of groove patterns, which are first mark patterns, on a second silicon substrate surface, forming a cross-shaped groove pattern, which is a third mark pattern, on an outer side with respect to a row of the groove patterns, and, after forming an oxide film over the entire second silicon substrate surface, manufacturing a second substrate that forms a silicon layer as a top layer;a step of slicing out the first substrate into size smaller than the second substrate and joining the silicon layer, which is the top layer of the first substrate, the silicon layer, which is the top layer of the second substrate, such that the third mark pattern is exposed;a step of forming a plurality pairs of groove patterns, which are second mark patterns, on the first substrate side of the joined substrate with reference to a position of the third mark pattern;a step of slicing out the joined substrate with reference to the position of the third mark pattern;a step of erecting the multilayer film cross section, the first mark patterns, and the second mark patterns of the sliced-out joined substrate on a substrate for position fixing to appear on an upper surface and sticking together the first silicon substrate surface and the second silicon substrate to be held by retaining substrates made of silicon from both sides;a step of polishing a cross section of a stuck joined substrate to set height of the cross section of the stuck joined substrate to desired height from a bottom surface of the substrate for position fixing; anda step of forming a line pattern through material selective etching of the cross section of the joint substrate and forming the first mark patterns, which are position specifying patterns, as convexo-concave patterns through the material selective etching. 13. The method of manufacturing the standard member for calibration according to claim 12, wherein, in the joining step, a discontinuous boundary of a top surface atom array and atmosphere extending across the atmosphere before the joining in an atom array state of the surfaces of two opposed substrates disappears after the joining and the atom array state of top surfaces of the two opposed substrates changes to a continuous atom array state. 14. The method of manufacturing the standard member for calibration according to claim 12, wherein, in the step of slicing out the joined substrate, a cross section is formed by dicing. 15. The method of manufacturing the standard member for calibration according to claim 12, wherein the second mark patterns are manufactured by dicing in a direction perpendicular to at least a pair of the cross sections. 16. A scanning electron microscope comprising:a sample stage configured to retain a sample or a standard member for calibration;an irradiation optical system configured to scan an electron beam on the sample on the sample stage;a detector configured to detect a second electron or a reflection electron generated by the scanning of the electron beam;signal processing means for measuring the sample by processing an electron signal obtained from the detector;display means on which a measurement result is displayed;a bias power supply configured to apply a voltage for controlling an acceleration voltage of the electron beam to the sample stage; anda calibration function for performing magnification calibration of the irradiation optical system from information concerning intensity of the secondary electron or the reflection electron on the standard member for calibration mounted on the sample stage,the scanning electron microscope measuring, from the information concerning intensity of a secondary electron or a reflection electron generated by scanning an incident electron beam on an observation region on the measurement sample, a pattern in the observation region, whereinthe standard member for calibration includes:a multilayer film cross section formed by alternately laminating materials different from each other;a plurality of first mark patterns arranged across a first silicon layer and in parallel to the multilayer film cross section;at least a pair of second mark patterns arranged across a second silicon layer thicker than the first silicon layer on an opposite side of the first mark patterns with respect to the multilayer film cross section and in parallel to the multilayer film cross section; anda silicon layer arranged on an outer side of the first mark patterns and the second mark patterns with respect to the multilayer film cross section,the multilayer film cross section, the first mark patterns, the second mark patterns, and the silicon layer being provided on the same plane. 17. The scanning electron microscope according to claim 16, whereinan interval of the first mark patterns is calculated in advance according to light or X-ray diffraction, andthe scanning electron microscope comprises a function of comparing a pitch linewidth of any one of the mark patterns calculated by the signal processing means and a pitch linewidth calculated in advance according to the light or X-ray diffraction and performing magnification calibration of the irradiation optical system to reduce a difference between the pitch linewidths to nearly zero. 18. The scanning electron microscope according to claim 16, further comprising:an optical microscope configured to detect the second mark patterns;a function of detecting the first mark patterns through electron beam scanning on the basis of coordinate information of the second mark patterns and storing the coordinate information; anda function of performing magnification calibration of the calibration member.