Patent Number: 
Section: claims

1. A charged particle beam trajectory corrector for modifying trajectories of charged particle beams to correct aberrations, comprising:a correction electrode group including an axial electrode provided on a straight-line axis which obliquely crosses an emission axis of a charged particle beam from an illumination lens and off-axis electrodes provided with rotational symmetry so as to surround the axial electrode; and,a magnetic lens which generates an electric field between the axial electrode and the off-axis electrodes, whereinthe charged particle beam is caused to obliquely intersect the straight-line axis, a voltage is applied between the axial electrode and the off-axis electrodes to relax electric field distortion, and the aberration is corrected by an action of the magnetic lens. 2. The charged particle beam trajectory corrector according to claim 1, wherein an intersection point between the emission axis of the charged particle beam and the straight-line axis matches an image-formation point of the illumination lens. 3. The charged particle beam trajectory corrector according to claim 1, wherein the off-axis electrodes are configured as an off-axis electrode group which includes a plurality of off-axis electrodes, and voltage values proportional to a voltage input value to a predetermined off-axis electrode of the plurality of off-axis electrodes are inputted to the other off-axis electrodes of the plurality of off-axis electrodes. 4. The charged particle beam trajectory corrector according to claim 1, wherein the magnetic lens is compounded so as to be a rotational symmetry that is coaxial with the straight-line axis on which the axial electrode of the correction electrodes is provided. 5. The charged particle beam trajectory corrector according to claim 1, wherein input values of the correction electrodes are controlled with a linear function of input values to the magnetic lens. 6. The charged particle beam trajectory corrector according to claim 1, further comprising:a supporting body to which is fixed one end of the axial electrode and the off-axis electrodes, whereinthe axial electrode is configured as a short rod-like electrode or a substantially point-like electrode surrounded by a ground-connected shield electrode, and the supporting body has an annular opening which limits an incident range of the charged particle beam to a periphery of a portion fixed to an end of the rod-like electrode. 7. The charged particle beam trajectory corrector according to claim 1, wherein the off-axis electrodes are divided in a circumferential direction to form a plurality of portion electrodes, and voltages are independently applied to the each portion electrode. 8. The charged particle beam trajectory corrector according to claim 1, further comprising:a movable limiting aperture having differing opening dimensions in a radial direction and a rotation direction from a center of an axis of rotational symmetry of the off-axis electrodes. 9. The charged particle beam trajectory corrector according to claim 1, further comprising:an incident astigmatism corrector for correcting convergence towards a radial direction and a rotation direction from a center of an axis of rotational symmetry of an incident charged particle beam; andan exit astigmatism corrector which restores a shape of the charged particle beam emitted from the correction electrodes. 10. A charged particle beam apparatus which illuminates a specimen with a charged particle beam and acquires a specimen image, comprising:a charged particle source which generates the charged particle beam;an illumination lens for converging the charged particle beam;a charged particle beam trajectory corrector for modifying a trajectory of the charged particle beam to correct aberration;an illumination deflector for illuminating the specimen with a modified-trajectory charged particle beam; andan image generating and processing unit which detects a reflected electron signal from the specimen and displays an image on an image display apparatus, whereinthe charged particle beam trajectory corrector includes: a correction electrode group including an axial electrode provided on a straight-line axis which obliquely crosses an emission axis of the charged particle beam from the illumination lens, and off-axis electrodes provided with rotational symmetry so as to surround the axial electrode; and a magnetic lens which generates an electric field between the axial electrode and the off-axis electrodes, andthe charged particle beam is caused to obliquely intersect the straight-line axis, a voltage is applied between the axial electrode and the off-axis electrodes to relax electric field distortion, and the aberration is corrected by an action of the magnetic lens. 11. The charged particle beam apparatus according to claim 10, wherein the illumination deflector corrects an incident direction of the charged particle beam. 12. The charged particle beam apparatus according to claim 10, whereinthe illumination deflector further includes a function for scanning an upper structure of the correction electrodes, andthe image generating and processing unit detects a reflected electron signal from the upper structure of the correction electrodes, generates images of the upper structure of the correction electrodes, and displays the images on the image display apparatus. 13. The charged particle beam apparatus according to claim 10, further comprising:a control unit which controls input voltage values of the correction electrodes with a linear function of input to the illumination deflector. 14. The charged particle beam apparatus according to claim 10, further comprising:a control unit which controls the illumination deflector by measuring shape distortion of an emission beam with respect to a plurality of input values to the illumination deflector, approximating the distortion amounts as a polynomial function, and computing from the polynomial function an input value to the illumination deflector to minimize the distortion amount.