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Venus diapirs: Thermal or compositional?
V. L. Hansen
Earth & Environmental Sciences-Duluth
Research output
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Article
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peer-review
31
Scopus citations
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Keyphrases
Venus
100%
Diapir
100%
Corona
72%
Deep Mantle
27%
Buoyancy
27%
Boundary Layer
18%
Plume
18%
Surface Signature
18%
Transfer Heat
18%
Thermal Difference
18%
Diaper
9%
Upper Mantle
9%
Volcanic
9%
Core-mantle Boundary
9%
Surface Expression
9%
Endmember
9%
Mantle Plume
9%
Shallow Levels
9%
Thermal Anomaly
9%
Thermally Driven
9%
Density Contrast
9%
Upper Boundary
9%
Lower Boundary
9%
Compositional Difference
9%
Bimodality
9%
Geomorphic Features
9%
Density Difference
9%
Bimodal Size Distribution
9%
Median Diameter
9%
Host Density
9%
Mantle Upwelling
9%
Surface Distribution
9%
Crustal Plateaus
9%
Diapirism
9%
Circular Structures
9%
Mantle Origin
9%
Diapiric Structure
9%
Venus Surface
9%
Corona Model
9%
Geological Implications
9%
Mantle Diapir
9%
Quasi-circular
9%
Earth and Planetary Sciences
Diapir
100%
Mountains
50%
Lithosphere
41%
Boundary Layer
16%
Upper Mantle
8%
Core-Mantle Boundary
8%
Mantle Upwelling
8%
Temperature Anomaly
8%
Mantle Plume
8%
Diapirism
8%
Venus Surface
8%