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Thermal evolution of Venus with argon degassing
Joseph G. O'Rourke
, Jun Korenaga
Research output
:
Contribution to journal
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Article
›
peer-review
48
Scopus citations
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Earth & Environmental Sciences
thermal evolution
91%
Venus
87%
degassing
82%
argon
81%
mantle plume
43%
mantle
28%
mantle upwelling
25%
cratering
25%
catastrophic event
24%
crustal thickness
22%
decompression
21%
mass transport
19%
volcanism
17%
lithosphere
17%
upwelling
16%
magnetic field
16%
potassium
16%
melting
14%
history
10%
simulation
8%
comparison
7%
parameter
6%
effect
4%
Physics & Astronomy
degassing
100%
Venus (planet)
97%
Earth mantle
90%
argon
59%
upwelling water
48%
plumes
31%
lithosphere
24%
cratering
22%
pressure reduction
19%
regression analysis
15%
potassium
15%
histories
12%
melting
11%
causes
9%
output
9%
sensitivity
8%
estimates
8%
magnetic fields
7%
simulation
5%