Patent Number: 
Section: claims

1. A charged particle beam apparatus, comprising:a charged particle beam generator having a charged particle source;a charged particle optical system that enters charged particle beams emitted from the charged particle source on a sample;a vacuum evacuating means that evacuates the charged particle beam generator and the charged particle optical system; anda subsidiary vacuum pump that evacuates the charged particle beam generator, andwherein the charged particle source is configured of a field emission type charged particle source and the subsidiary vacuum pump is configured of a first non-evaporable getter pump comprising an alloy surface that extends orthogonally to a direction in which the charged particle beams are emitted from the field emission type charged particle source,wherein, the field emission type charged particle source is disposed to emit the charged particle beams in a gravity direction,wherein an electrode having an aperture through which the charged particle beams passes is provided immediately below the field emission type charged particle source,wherein the first non-evaporable getter pump is disposed around the aperture on the electrode surface, andwherein the electrode has a groove formed on a surface thereof, and the first non-evaporable getter pump is formed on a bottom of the groove. 2. The charged particle beam apparatus according to claim 1, further comprising a heater provided on the rear of the electrode. 3. The charged particle beam apparatus according to claim 1, wherein the electrode has a groove formed on the electrode surface, and the first non-evaporable getter pump is formed in a sheet shape and set on the bottom of the groove. 4. The charged particle beam apparatus according to claim 3, wherein a portion to which the charged particle beams of the first non-evaporable getter pump is irradiated is provided with a shield plate. 5. The charged particle beam apparatus according to claim 1, wherein the charged particle beam generator includes a magnetic shield, a heater provided around an outer wall at an atmospheric side, and a second non-evaporable getter pump that is disposed in a region surrounded by the magnetic shield along an inner wall. 6. The charged particle beam apparatus according to claim 1, wherein the electrode has a cup shape and the cup-shaped electrode includes a cylindrical heater on a side thereof, and a third non-evaporable getter pump disposed along a side of the cylindrical heater, the circumference of the third non-evaporable getter pump being surrounded by a magnetic shield. 7. The charged particle beam apparatus according to claim 6, wherein the side of the magnetic shield is provided with the apertures. 8. The charged particle beam apparatus according to claim 1, wherein the charged particle beam generator includes a region where the field emission type charged particle source is disposed and a vacuum chamber, the charged particle beam generator being connected to the vacuum chamber via the aperture of the electrode and the vacuum chamber being provided with a main vacuum evacuating means and a sub vacuum evacuating means. 9. The charged particle beam apparatus according to claim 8, wherein an ion pump is used as the main vacuum evacuating means and a fourth non-evaporable getter pump is used as the sub vacuum evacuating means. 10. The charged particle beam apparatus according to claim 1, wherein a heating temperature when the first non-evaporable getter pump is activated is set to be higher than a baking temperature that promotes degassing by heating the apparatus when vacuum evacuates. 11. The charged particle beam apparatus according to claim 1, wherein a portion to which the charged particle beams of the first non-evaporable getter pump is irradiated is provided with a shield plate. 12. A charged particle beam apparatus, comprising:a charged particle beam generator having a charged particle source;a charged particle optical system that enters charged particle beams emitted from the charged particle source on a sample;a vacuum evacuating means that evacuates the charged particle beam generator and the charged particle optical system; anda subsidiary vacuum pump that evacuates the inside of charged particle beam generator evacuated by the vacuum evacuating means, whereinthe charged particle source is a field emission type charged particle source,the subsidiary vacuum pump is configured of a first non-evaporable getter pump comprising an alloy surface that extends orthogonally to a direction in which the charged particle beams are emitted from the field emission type charged particle source, andthe charged particle beam generator includes a magnetic shield, a second non-evaporable getter pump that is disposed in a region surrounded by the magnetic shield along an inner wall of the charged particle beam generator, and a heater that heats the second non-evaporable getter pump around an outer wall at an atmospheric side,the field emission type charged particle source is disposed to emit the charged particle beams in a gravity direction,an electrode having an first aperture through which the charged particle beams passes is provided immediately below the field emission type charged particle source,the first non-evaporable getter pump is disposed around the first aperture on the electrode surface, andthe electrode has a groove formed on a surface thereof, and the first non-evaporable getter pump is formed on a bottom of the groove. 13. The charged particle beam apparatus according to claim 12, further comprising:a cup-shaped electrode provided immediately below the field emission type charged particle source, the cup-shaped electrode having a second aperture through which the charged particle beams passes,wherein the cup-shaped electrode includes a cylindrical heater on a side thereof, and a third non-evaporable getter pump disposed along a side of the cylindrical heater, and a magnetic shield surrounding the circumference of the third non-evaporable getter pump along the side of the heater. 14. The charged particle beam apparatus according to claim 13, wherein the side of the magnetic shield is provided with the apertures. 15. The charged particle beam apparatus according to claim 12, wherein the charged particle beam generator includes a vacuum chamber connected to the charged particle beam generator via the first aperture through which the charged particle beams passes, the vacuum chamber being provided with a main vacuum evacuating means and a sub vacuum evacuating means. 16. The charged particle beam apparatus according to claim 15, wherein an ion pump is used as the main vacuum evacuating means, and a fourth non-evaporable getter pump is used as the sub vacuum evacuating means. 17. The charged particle beam apparatus according to claim 12, wherein a heating temperature when the second non-evaporable getter pump is activated is set to be higher than a baking temperature that promotes degassing by heating the apparatus when vacuum starts.