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Molecular hydrogen desorption from amorphous surfaces at low temperature
G. Vidali
, L. Li
Department of Physics
Research output
:
Contribution to journal
›
Article
›
peer-review
15
Scopus citations
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Dive into the research topics of 'Molecular hydrogen desorption from amorphous surfaces at low temperature'. Together they form a unique fingerprint.
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Engineering & Materials Science
Desorption
98%
Hydrogen
68%
Molecules
41%
Olivine
35%
Temperature
34%
Binding sites
30%
Silicates
24%
Single crystals
24%
Atoms
22%
Dust
21%
Chemical analysis
13%
Hot Temperature
10%
Experiments
7%
Medicine & Life Sciences
Hydrogen
100%
Temperature
61%
olivine
58%
Silicates
42%
Dust
31%
Hot Temperature
22%
Binding Sites
22%
Physics & Astronomy
desorption
75%
hydrogen
52%
olivine
28%
molecules
22%
ejection
22%
silicates
20%
energy distribution
18%
dust
17%
inversions
17%
single crystals
13%
atoms
10%
Chemical Compounds
Desorption
65%
Amorphous Material
59%
Hydrogen
43%
Surface
27%
Dust
23%
Single Crystalline Solid
15%
Binding Site
15%
Molecule
14%
Environment
12%
Energy
10%
Application
6%