A non-destructive beam profile monitor using a neutral gas sheet is developed for ion synchrotron beams.To produce the intense gas sheet, a nozzle beam method is employed. The typical sizes of the sheet are 100 mm width and 1 mm thickness. Up to now the pressure of the gas sheet has been achieved 5 x 10 -7 Torr. As the sheet is inclined 45 degrees in the transverse direction to the beam, a cross-sectional profile of the beam would be measured.As a performance test, a profile of an extracted proton beam from NIRS-Cyclotron was successfully measured.
Vacuum firing, which is a heat treatment at high temperature in a high vacuum furnace, is known as the method for the outgassing reduction of the vacuum materials, such as stainless steel, titanium, etc. The outgassing rate of the vacuum-fired stainless steel is known to be low after ordinal baking at 150−200°C, which is typically in the order of 10 −11 −10 −10 Pa m 3 s −1 . In this research, the effect of the vacuum firing (850°C for 10 h) on the stainless steel SUS304 is investigated from the vacuum and surface point of view. The build-up test of the stainless steel vacuum chamber clearly showed the outgassing suppression by the vacuum firing. Especially, the hydrogen outgassing, which was the main component after baking, was much reduced. Thermal desorption spectroscopy showed that the vacuum firing reduced the desorption of H 2 , H 2 O, CO, and CO 2 with high desorption energy even after air exposure. Especially, the effect on H 2 was very large. X-ray photoelectron spectroscopy (XPS) showed the increase of ferric oxide and the decrease of chrome oxide on the near surface of the vacuum-fired stainless steel. On the other hand, XPS also showed that the chrome oxide was systematically increased by heating from 200 to 400°C. These results support the outgassing reduction mechanism by the vacuum firing that the hydrogen is reduced from the bulk due to the diffusion to the vacuum phase during the vacuum firing and the surface metal oxides are reformed as a diffusion barrier from the gas phase to the bulk.
KeywordsVacuum firing; Outgassing; Build-up method; Thermal desorption spectroscopy; X-ray photoelectron spectroscopy 42 which is the high-temperature heating of vacuum chambers 43 or vacuum materials in a high vacuum furnace, has been 44 known as the process of reducing the amount of dissolved 45 hydrogen in the bulk to obtain low outgassing [3]. For ex-46 ample, the CERN applied vacuum firing to stainless steel at 47
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