Hydrogen Incorporation Into Metal Deposits Forming From Tungsten Or Stainless Steel By Sputtering Under Mixed Hydrogen And Argon Plasma At Elevated Temperature

The influence of the deposition conditions on hydrogen incorporation into metal deposits was investigated by exposing tungsten (W) or stainless steel (SS) to mixed hydrogen and argon plasma. The sputtering yield of SS was lower than expected from a sputtering yield of iron and was close to that of Mo. The hydrogen incorporated into the W deposits was released by heating up to 600 degrees C. On the other hand, the release of hydrogen from the SS deposits continued until 1000 degrees C. The H/W ratio in the W deposits decreased with decreasing the H/W flux ratio toward the growing surface and increasing substrate temperature. The H/W ratio in the W deposit formed at 500 degrees C was 0.005. The H/Metal ratio in the SS deposits was varied in the range between 0.03 and 0.3 depending on the target bias but the influences of the H/Metal flux ratio and substrate temperature were not observed. (C) 2013 Elsevier B.V. All rights reserved.