Patent Number: 
Section: claims

1. A specimen analyzing apparatus comprising:a charged particle beam illuminating optical system for irradiating a charged particle beam on a specimen;a detector for detecting a secondary charged particle beam generated under the irradiation of the charged particle beam;a specimen attachment having a pass-through portion for allowing the charged particle beam to pass; anda specimen holder for mounting the specimen attachment,wherein the specimen attachment mounts the entire specimen in the pass-through portion,wherein the specimen attachment includes a conductive pattern having a first part and a second part whose pattern width is narrower than a pattern width of the first part,wherein the conductive pattern is electrically connectable to the specimen holder via the first part and is electrically connectable to said specimen via the second part,wherein the first part is connected to the second part by the conductive pattern whose pattern width is narrower than a pattern width of the first part,wherein the second part faces the pass-through portion, andwherein the conductive pattern is disposed on an opposite side of the specimen attachment relative to the charged particle beam illuminating optical system;a conductive deposition film formed on the specimen holder;a floating conductive structure having a first end connected to the second part, and a second end connected to the deposition film,wherein the conductive deposition film is disposed on the opposite side of the specimen attachment relative to the charged particle beam illuminating optical system. 2. A specimen analyzing apparatus comprising:a charged particle beam illuminating optical system for irradiating an electron beam on specimen;a detector for detecting electrons transmitted through said specimen under irradiation of said electron beam;a specimen attachment having a pass-through portion for allowing the charged particle beam to pass;a specimen holder for mounting the specimen attachment;a first conductive pattern formed on the specimen holder;a second conductive pattern formed on the specimen attachment for converting a predetermined size electrode pattern connectable to the first conductive pattern to a second electrode pattern connectable to said specimen, the second electrode pattern width is narrower than the predetermined size electrode pattern; andmeans for supplying voltage or current to said specimen through the first conductive pattern and the second conductive pattern,wherein the specimen attachment mounts the entire specimen in the pass-through portion,wherein the predetermined size electrode pattern is connected to the second electrode pattern by the second conductive pattern whose pattern width is narrower than a pattern width of the predetermined size electrode pattern,wherein the second electrode pattern faces the pass-through portion,wherein the second conductive pattern is disposed on an opposite side of the specimen attachment relative to the charged particle beam illumination system; anda conductive deposition film formed on the specimen holder; anda floating conductive structure having a first end connected to the smaller size electrode, and a second end connected to the deposition film,wherein the conductive deposition film is disposed on the opposite side of the specimen attachment relative to the charged particle beam illuminating optical system. 3. A specimen analyzing apparatus according to claim 1, wherein said specimen attachment has a single or a plurality of conductive structures. 4. A specimen analyzing apparatus according to claim 1, wherein an insulating member is interposed between said specimen attachment and said specimen. 5. A specimen analyzing apparatus according to claim 1, wherein said specimen attachment is formed with a dovetail-like fitting arrangement and said specimen holder is formed with a corresponding dovetail-like fitting arrangement so that they may be put together through the dovetail-like fitting arrangements. 6. A specimen analyzing apparatus according to claim 1, wherein said specimen attachment has on its front surface a conductive film which is grounded. 7. A specimen analyzing apparatus according to claim 1, wherein a grounded conductive cover is provided for the front surface of said specimen attachment. 8. A specimen analyzing apparatus according to claim 6, wherein an insulating member is interposed between said conductive film and said specimen attachment. 9. A specimen analyzing apparatus according to claim 7, wherein an insulating member is interposed between said cover and said specimen attachment. 10. A specimen analyzing apparatus according to claim 1 further comprising means for applying voltage to said specimen through the conductive pattern. 11. A specimen analyzing apparatus according to claim 1 further comprising:means for imaging a signal detected by said detector; anddisplay means for displaying the image. 12. A specimen analyzing apparatus according to claim 1, wherein said specimen holder is a side entry type specimen holder usable in common with a specimen preparation unit for producing said specimen. 13. A specimen analyzing apparatus according to claim 1, wherein said specimen attachment is usable in common with a specimen preparation unit for producing said specimen. 14. A specimen analyzing apparatus according to claim 1, wherein:the second part is electrically connected to said specimen by means of a conductive deposition film; andthe conductive deposition film is disposed on the opposite side of the specimen attachment relative to the charged particle beam illuminating optical system. 15. A specimen analyzing apparatus according to claim 2, wherein:the smaller size electrode is electrically connected to said specimen by means of a conductive deposition film; andthe conductive deposition film is disposed on the opposite side of the specimen attachment relative to the charged particle beam illuminating optical system.