Patent Number: 
Section: claims

1. A focusing lens for focusing a charged particle beam onto a specimen comprising:an auxiliary electrode having an essentially planar electrode surface for focusing the charged particle beam at a tilted landing angle, wherein the essentially planar electrode surface has an auxiliary electrode angle with an optical axis of the focusing lens which is smaller than 80 degrees. 2. The focusing lens of claim 1, wherein the auxiliary electrode angle is smaller than 60 degrees. 3. The focusing lens of claim 1, wherein the auxiliary electrode angle is larger than 20 degrees. 4. The focusing lens of claim 1, further comprising a first electrode having an aperture for focusing the charged particle beam. 5. The focusing lens of claim 4, wherein the essentially planar electrode surface of the auxiliary electrode is oriented to face the first electrode. 6. The focusing lens of claim 4, wherein the essentially planar electrode surface within a first direction is longer than a diameter of the aperture of the first electrode by at least a factor of one. 7. The focusing lens of claim 6, wherein the essentially planar electrode surface within a second direction that is orthogonal to the first direction, is longer than the diameter of the aperture of the first electrode by at least a factor of one. 8. The focusing lens of claim 4, wherein in all directions, macroscopic curvature radii of the essentially planar electrode surface are larger than a curvature radius of the aperture of the first electrode by a factor larger than 10. 9. The focusing lens of claim 1, wherein the essentially planar electrode surface is aligned to be orthogonal with respect to a tilting plane extending along the optical axis. 10. The focusing lens of claim 9, wherein the essentially planar electrode surface is aligned to be symmetric with respect to the tilting plane. 11. The focusing lens of claim 4, wherein the auxiliary electrode is mechanically attached to the first electrode. 12. The focusing lens of claim 1 further comprising mechanical means for rotating the auxiliary electrode to adjust the auxiliary electrode angle to an actual landing angle. 13. The focusing lens of claim 1, wherein the auxiliary electrode has a plurality of multiple through-holes for secondary charged particles to pass through the auxiliary electrode. 14. The focusing lens of claim 4, further comprising a second electrode, wherein the second electrode is positioned upstream of the first electrode for focusing the charged particle beam. 15. The focusing lens of claim 14, further comprising a third electrode, wherein the third electrode is positioned upstream of the second electrode for focusing the charged particle beam. 16. The focusing lens of claim 4, wherein at least one element selected from a group consisting of the first electrode, the second electrode and the third electrode is rotationally symmetric with respect to the optical axis. 17. The focusing lens of claim 4, wherein at least one element selected from a group consisting of the first electrode, the second electrode and the third electrode is cone-like shaped. 18. The focusing lens of claim 17, wherein at least one element selected from a group consisting of the cone-like shaped first electrode, the cone-like shaped second electrode and the cone-like shaped third electrode has an apex half-angle, which is equal or smaller than the auxiliary electrode angle. 19. The focusing lens of claim 1, further comprising a magnetic focusing lens for focusing the charged particle beam. 20. The focusing lens of claim 19, wherein the magnetic focusing lens, further comprises a focusing yoke for focusing the charged particle beam by a magnetic field. 21. The focusing lens of claim 1, further comprising at least two correction electrodes for reducing a quadrupole field generated by the auxiliary electrode. 22. The focusing lens of claim 21, wherein each of the at least two correction electrodes are shaped and positioned to be symmetric with respect to a tilting plane extending along the optical axis. 23. The focusing lens of claim 21, wherein the at least two correction electrodes are shaped and positioned to be symmetric with respect to a symmetry plane extending along the optical axis. 24. The focusing lens of claim 23, wherein the tilting plane is essentially orthogonal to the symmetry plane. 25. The focusing lens of claim 21, wherein the at least two correction electrodes are tilted with respect to the tilting plane by a correction electrode angle. 26. The focusing lens of claim 25, wherein an angular point of the correction electrode angle coincides with an angular point of an auxiliary electrode angle. 27. The focusing lens of claim 21, wherein the at least two correction electrodes are pin-like shaped. 28. The focusing lens of claim 21, wherein the at least two correction electrodes are attached to a first electrode. 29. The focusing lens of claim 1, further comprising:a specimen voltage source that is connected to the specimen;a first electrode that is connected to a first voltage source;a second electrode that is connected to a second voltage source;a third electrode that is connected to a third voltage source;the auxiliary electrode that is connected to an auxiliary voltage source; andthe at least two correction electrodes are connected to a correction voltage source for controlling the voltages independently from each other. 30. The charged particle beam device of claim 29, wherein at least one voltage source selected from the group consisting of the first voltage source, the second voltage source, the third voltage source, the auxiliary voltage source and the correction voltage source applies its respective voltage with respect to the voltage of the specimen voltage source. 31. The focusing lens of claim 21, wherein the specimen, the auxiliary electrode, the at least two correction electrodes, and a first electrode are electrically connected with each other to be at the same voltage. 32. The focusing lens of claim 1, further comprising a charged particle beam device for focusing a charged particle beam onto a specimen. 33. A charged particle beam device for focusing a charged particle beam focusing onto a specimen comprising:a focusing lens for focusing the charged particle beam onto the specimen; andan auxiliary electrode having an essentially planar electrode surface for focusing the charged particle beam at a tilted landing angle, wherein the essentially planar electrode surface has an auxiliary electrode angle with an optical axis of the focusing lens which essentially equals the landing angle. 34. The charged particle beam device of claim 33, wherein the auxiliary electrode angle is smaller than 80 degrees. 35. The charged particle beam device of claim 33, wherein the focusing lens is oriented to provide that the auxiliary electrode angle and the landing angle both lie within a tilting plane. 36. The charged particle beam device of claim 33, wherein the auxiliary electrode angle equals the landing angle within 20 degrees. 37. The charged particle beam device of claim 33, wherein the focusing lens is positioned to provide that an angular point of the auxiliary electrode angle essentially coincides with the point of interaction with the specimen. 38. The charged particle beam device of claim 33, further comprising a tilting mechanism for focusing the charged particle beam onto the specimen at different landing angles. 39. The charged particle beam device of claim 33, further comprising auxiliary electrode angle adjustment means for adjusting the auxiliary electrode angle to the landing angle. 40. The charged particle beam device of claim 33, further comprising a control unit, wherein the control unit is connected to the auxiliary electrode angle adjustment means and to a tilting mechanism for automatically adjusting the auxiliary electrode angle to a given landing angle. 41. A method of focusing a charged particle beam onto a specimen, comprising the act of:focusing the charged particle beam onto the specimen at a tilted landing angle;providing for an auxiliary electrode having an essentially planar electrode surface; andproviding for an auxiliary electrode angle formed by the charged particle beam and the essentially planar electrode surface that essentially equals the tilted landing angle. 42. The focusing method of claim 41, further comprising the act of providing that the auxiliary electrode angle and the tilted landing angle lie within a tilting plane. 43. The focusing method of claim 41, further comprising the act of moving the auxiliary electrode with respect to the specimen to provide that the angular point of the auxiliary electrode angle essentially coincides with the tilted landing angle. 44. The focusing method of claim 41, wherein a desired auxiliary electrode angle is provided by rotating the auxiliary electrode with respect to a direction of the charged particle beam. 45. The focusing method of claim 41, wherein the desired auxiliary electrode angle is provided by moving the auxiliary electrode with respect to the specimen. 46. A method of focusing a charged particle beam onto a specimen, comprising the act of:focusing the charged particle beam onto the specimen at a tilted landing angle; andgenerating an essentially planar equipotential region oriented to intersect the specimen at an intersection angle that is essentially twice the tilted landing angle. 47. The focusing method of claim 46, wherein the intersection angle lies essentially within the same plane as the tilted landing angle. 48. The focusing method of claim 46, wherein the essentially planar equipotential region intersects the specimen at an angular point of the landing angle. 49. The focusing method of claim 46, wherein the potential of the essentially planar equipotential region equals the potential of the specimen. 50. The focusing method of claim 46, wherein the essentially planar equipotential region is generated by an essentially planar electrode surface of an auxiliary electrode. 51. The focusing method of claim 46, wherein a tilted landing angle is provided by changing the landing angle. 52. The focusing method of claim 46, wherein the landing angle is smaller than 80 degrees. 53. The focusing method of claim 46, wherein the landing angle is larger than 10 degrees. 54. The focusing method of claim 46, wherein the specimen and an auxiliary electrode are connected to a same specimen voltage source to have the same voltage. 55. The focusing method of claim 46, wherein the charged particle beam is focused by a focusing lens that comprises an auxiliary electrode having an essentially planar electrode surface for focusing the charged particle beam at a tilted landing angle, wherein the essentially planar electrode surface has an auxiliary electrode angle with an optical axis of the focusing lens which is smaller than 80 degrees.