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A Model for the Thermal Equilibrium of the Surface Venusian Atmosphere
M. Yu Zolotov
Research output
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Contribution to journal
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Article
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peer-review
20
Scopus citations
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Dive into the research topics of 'A Model for the Thermal Equilibrium of the Surface Venusian Atmosphere'. Together they form a unique fingerprint.
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Physics & Astronomy
atmospheres
100%
Venus (planet)
60%
gases
48%
radii
29%
hematite
28%
oxygen
28%
magnetite
26%
chemical equilibrium
25%
soils
24%
reactivity
23%
minerals
23%
solid phases
22%
planets
21%
surface layers
20%
buffers
19%
porosity
17%
iron
16%
reflectance
16%
thermodynamics
16%
gradients
15%
probes
14%
estimates
13%
Chemical Compounds
Fugacity
97%
Gas
74%
Thermodynamic Method
51%
Redox Condition
50%
Surface
45%
Reflectivity
40%
NIR Spectroscopy
35%
Dioxygen
34%
Soil
30%
Mineral
28%
Pore
23%
Buffer Solution
22%
Probe
21%
Earth & Environmental Sciences
atmosphere
83%
Venus
46%
fugacity
45%
gas
41%
oxygen
26%
redox conditions
23%
reflectivity
19%
magnetite
18%
planet
18%
surface layer
17%
probe
16%
thermodynamics
15%
iron
13%
mineral
11%
chemical
9%
soil
8%
experiment
7%
distribution
7%
method
4%