Patent Number: 
Section: claims

1. An inspection method using charged particle beam, comprising the steps of:scanning a desired area on a specimen with a primary charged particle beam;detecting the low angle components of an elevation angle, at a place of generation, of charged particles secondarily generated from said area by irradiating said primary charged particle beam; anddetecting high angle components of the elevation angle. 2. An inspection method using a charged particle beam according to claim 1, further comprising the step of separating a low angle component of an elevation angle, at a place of generation, of charged particles secondarily generated from said desired area on said specimen into two or more types of azimuth components and then detecting them. 3. An inspection method using a charged particle beam according to claim 1, further comprising the step of obtaining an image in a defect coordinate position on said specimen based on defect coordinate data on said specimen. 4. An inspection method using a charged particle beam according to claim 3, further comprising the step of classifying a defect by obtaining information on image shape, contrast, and asperity, after obtaining said image. 5. An inspection method using a charged particle beam according to claim 1, wherein said charged particle beam is an electron beam. 6. An inspection method using a charged particle beam according to claim 1, further comprising a secondary charged particle alignment step for separating said secondarily generated charged particles into said two or more types of azimuth components, and then detecting them. 7. An inspection method using a charged particle beam according to claim 1, further comprising a secondary charged particles alignment step for deflecting and adjusting said secondarily generated charged particles at a desire inclination independently of a primary charged particle beam, and then detecting them. 8. An inspection method using a charged particle beam according to claim 7, wherein said secondary charged particle alignment step is an alignment step capable of deflecting secondary electrons two or more directions. 9. An inspection apparatus using a charged particle beam, comprising:a specimen stage;a charged particle source to generate a primary charged particle beam;an objective lens to irradiate a primary charge particle beam onto a specimen on said specimen stage;an electrode to adjust an electric field on said specimen; andmeans of detecting low angle components of elevation angles and high angle components, at a place of generation, of charged particles secondarily generated from said specimen. 10. An inspection apparatus using a charged particle beam according to claim 9, further comprising a detection unit to separate said low angle components of elevation angles into two or more types of azimuth components and detect them. 11. An inspection apparatus using a charged particle beam according to claim 9 or 10, further comprising a reflector plate on which charged particle secondarily generated from said specimen impinge; and a detector plate to detect secondary electrons generated when said charged particle impinged on said reflector plate. 12. An inspection apparatus using a charge particle beam according to claim 11, wherein said reflector plate or detector plate has an opening with radius of 1 mm or more and 10 mm or less relative to the light axis of said charged particle beam. 13. An inspection apparatus using a charged particle beam according to claim 11, wherein said reflector plate or detector plate has a means of moving itself. 14. An inspection apparatus using a charged particle beam according to claim 9, wherein said detection means includes a semiconductor detector, scintillator, or a multichannel plate. 15. An inspection apparatus using a charged particle beam according to claim 9, further comprising:a comparison arithmetic circuit to form an image based on a signal from said detection means, and compare an image to be inspection with an image of another same circuit pattern; andan arithmetic circuit to determine defects on the circuit pattern of said specimen based on the comparison result from said comparison arithmetic circuit. 16. An inspection apparatus using a charged particle beam according to claim 15, further comprising a computer that forms images based on signals from said detection means and classifies the images according to defect types. 17. An inspection apparatus using a charged particle beam, comprising:a specimen stage on which a specimen is loaded;an objective lens to irradiate a primary charged particle beam onto said specimen;an electrode to adjust an electric field on said specimen;two or more detection units to separate low angle components of secondary charged particles generated from said specimen, as viewed from the place of generation, into two or more types of azimuth components and then detect thema detection unit to detect high angle component of said elevation angles; anda secondary charged particle deflection means to deflect and adjust said secondary charged particles at a desired inclination independently of a primary charged particle beam. 18. An inspection apparatus using a charged particle beam according of claim 17, wherein said secondary charged particle deflection means is a deflector overlapping electric field and magnetic field. 19. An inspection apparatus using a charged particle beam according to claim 17, wherein said secondary charged particle deflection means is composed of a 4 or more polar electrode and magnetic pole capable of deflecting secondary charged particles in two or more directions. 20. An inspection apparatus using a charged particle beam according to claim 19, wherein the shape of an opening of a reflector plate or detector plate for separating said secondary charged particles according to azimuth, is an ellipse or rectangle with a minor axis in the direction of separating said secondary charged particles according to their azimuth, and a major axis in the direction perpendicular to the minor axis direction.