Patent ID: 8362442
Filing Date: 2013-01-29
Classification: H01J

Abstract:
1. Corrector for correcting chromatic and spherical aberrations in an electron microscope, the corrector comprising: a first multipole element, said first multipole element disposed about a beam path and generating a first element quadrupole field; a second multipole element disposed downstream of said first multipole element, said second multipole element disposed about said beam path and generating a second element quadrupole field, said second element quadrupole field rotated through 90° with respect to an orientation of said first element quadrupole field; a third multipole element disposed downstream of said second multipole element, said third multipole element disposed about said beam path and generating a third element quadrupole field, said third element quadrupole field rotated through 90° with respect to an orientation of said second element quadrupole field, said third multipole element also generating a third element octupole field; a fourth multipole element disposed downstream of said third multipole element, said fourth multipole element disposed about said beam path and generating a fourth element quadrupole field, said fourth element quadrupole field rotated through 90° with respect to an orientation of said third element quadrupole field, said fourth multipole element also generating a fourth element octupole field, wherein said fourth element octupole field is oriented in a same direction as said third element octupole field, correction of chromatic aberration thereby being effected by interaction between said third and said fourth element quadrupole fields; a fifth multipole element disposed downstream of said fourth multipole element, said fifth multipole element disposed about said beam path and generating a fifth element quadrupole field, said fifth element quadrupole field rotated through 90° with respect to an orientation of said fourth element quadrupole field; and a sixth multipole element disposed downstream of said fifth multipole element, said sixth multipole element disposed about said beam path and generating a sixth element quadrupole field, said sixth element quadrupole field rotated through 90° with respect to an orientation of said fifth element quadrupole field, wherein said first through sixth multipole elements are symmetric about a plane of symmetry, said first through sixth element quadrupole fields being centrosymmetric about a point of intersection between an optical axis and said plane of symmetry, wherein the corrector is structured to produce an exchange symmetry of axial fundamental rays with said plane of symmetry as a reflection plane for exchange of trajectory of axial fundamental rays, said corrector also being structured to produce an exchange symmetry of off-axial fundamental rays with a point of intersection between said optical axis and said plane of symmetry as a point for centrosymmetric exchange of trajectory of said off-axial fundamental rays, wherein all fundamental rays converge at an end of the corrector, correction of spherical aberration thereby being effected by means of said first through sixth element quadrupole fields with said third and fourth element octupole fields, wherein a stigmatic intermediate image of said axial fundamental rays is produced in said first element quadrupole field, said first element quadrupole field thereby being set such that astigmatic intermediate images of said off-axial fundamental rays are produced in a region of a center of said third and said fourth element quadrupole fields, wherein said second element quadrupole field is set such that said axial fundamental rays of a same section as that in which said intermediate images of said off-axial fundamental rays are located, each exhibit a maximum in said region of said center of said third and said fourth element quadrupole fields.