1999
DOI: 10.1016/s0022-3115(98)00545-5
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Erosion of beryllium and deposition of carbon and oxygen due to bombardment with C+ and CO+ ions

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Cited by 10 publications
(10 citation statements)
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“…Once the surface recession rate is reduced more carbon will build up in the implantation zone and eventually a carbon rich layer results. Calculations based on this mathematical expression for the surface binding energy do a good job of replicating ion beam sputtering results [38,39]. Similar behavior is predicted for Be ions impinging on a carbon target [40].…”
Section: Beryllium/carbon Systemsupporting
confidence: 57%
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“…Once the surface recession rate is reduced more carbon will build up in the implantation zone and eventually a carbon rich layer results. Calculations based on this mathematical expression for the surface binding energy do a good job of replicating ion beam sputtering results [38,39]. Similar behavior is predicted for Be ions impinging on a carbon target [40].…”
Section: Beryllium/carbon Systemsupporting
confidence: 57%
“…In measurements involving the tertiary mixed-material Be-C-O system, dramatically different results are obtained. Recall that the interaction of the two-component Be-C system resulted in the formation of a Be 2 C layer, the bombardment of beryllium with CO + ion beams results in almost exclusive binding of the beryllium to the oxygen in the implantation zone [35,39]. The carbon atoms present are then bound up in C-C or C-O bonds.…”
Section: Beryllium/carbon Systemmentioning
confidence: 99%
“…Carbon chemical erosion can be drastically reduced by impurities on the surface [405] and in the bulk [406]. Surface impurities, such as incident Be ions on the ITER C target can reduce the chemical erosion of carbon by coverage effects [405,407].…”
Section: Effects Of Materials Mixing On Erosionmentioning
confidence: 99%
“…The systems C + and CO + on Be [338] and C + and CH One important parameter is certainly the carbon concentration in the incident ion flux [335]. The transition from erosion to deposition occurs at lower ion energies as the carbon concentration decreases (Sect.…”
Section: Erosion Data Of Mixed-materialsmentioning
confidence: 99%