Investigation of hydrogen isotope retention mechanisms in beryllium: High resolution TPD measurements
Author:
Publisher
Elsevier BV
Subject
Nuclear Energy and Engineering,Materials Science (miscellaneous),Nuclear and High Energy Physics
Reference12 articles.
1. Chapter 1: Overview and summary
2. ARTOSS ? A New Surface Science Experiment to Study the Hydrogen Inventory in Multi-Component Materials
3. Retention mechanisms and binding states of deuterium implanted into beryllium
4. Retention and release mechanisms of deuterium implanted into beryllium
5. Towards a detailed understanding of the mechanisms of hydrogen retention in beryllium
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1. Effect of the internal pressure of helium bubbles on the morphology and mobility of beryllium;Fusion Engineering and Design;2023-06
2. Retention of deuterium in beryllium: A combined investigation using TDS, ERDA and EBS;Nuclear Materials and Energy;2022-10
3. D retention and material defects probed using Raman microscopy in JET limiter samples and beryllium-based synthesized samples;Physica Scripta;2021-09-27
4. The influence of D2 pressure on D retention and release from Be co-deposits;Nuclear Materials and Energy;2021-09
5. Combination of in-situ ion beam analysis and thermal desorption spectroscopy for studying deuterium implanted in tungsten;Physica Scripta;2021-08-13
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