Thermal desorption process and surface roughness of POCO graphite irradiated by hydrogen ion beam
Author:
Publisher
Elsevier BV
Subject
Nuclear Energy and Engineering,General Materials Science,Nuclear and High Energy Physics
Reference12 articles.
1. Differences in the CH3 and CH4 formation from graphite under bombardment with hydrogen ions and hydrogen atoms/argon ions
2. Chemical sputtering of carbon by sub‐eV atomic hydrogen: New results and a critical comparison with previous data relevant to fusion applications
3. Reactions of modulated molecular beams with pyrolytic graphite. III. Hydrogen
4. Hydrocarbon formation in the reaction of atomic hydrogen with pyrolytic graphite and the synergistic effect of argon ion bombardment
5. Methane formation during the interaction of energetic protons and deuterons with carbon
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1. Kinetics and transport of hydrogen in graphite at high temperature and the effects of oxidation, irradiation and isotopics;Journal of Nuclear Materials;2022-01
2. Desorption of hydrogen trapped in carbon and graphite;Journal of Nuclear Materials;2013-11
3. Dynamic Monte-Carlo modeling of thermal desorption of H2 from H+ irradiated graphite;Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms;2011-02
4. Hydrogen desorption kinetics and band bending for 6H–SiC(0 0 0 1) surfaces;Surface Science;2009-10
5. Hydrogen Retention in and Release from Carbon Materials;Springer Series in Chemical Physics;2005
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