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Linking Uranus' temperature profile to wind-induced magnetic fields
Deniz Soyuer
*
,
Ravit Helled
*
Corresponding author for this work
University of Zurich
Research output
:
Contribution to journal
›
Article
›
peer-review
4
Scopus citations
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Keyphrases
Temperature Profile
100%
Wind-induced
100%
Induced Magnetic Field
100%
Uranus
100%
Poloidal Field
55%
Field Perturbation
44%
Zonal Flow
22%
Background Magnetic Field
22%
Luminosity
11%
Metallicity
11%
Electrical Conductivity
11%
Ohmic
11%
Thermal Gradient
11%
Spatially Correlated
11%
Outer Region
11%
Decay Profiles
11%
Zonal Wind
11%
Interior Structure
11%
Toroidal Field
11%
Compositional Gradient
11%
Ice Giants
11%
In Situ Exploration
11%
Ohmic Dissipation
11%
Decaying Solutions
11%
Turbulent Convection
11%
Earth and Planetary Sciences
Temperature Profile
100%
Zonal Flow
100%
Metallicity
50%
Electrical Resistivity
50%
Zonal Wind
50%
Ohmic Dissipation
50%
Toroidal Field
50%
Engineering
Magnetic Field
100%
Temperature Profile
100%
Assuming
33%
Electrical Conductivity
33%
Constrains
33%
Extreme Case
33%
Outer Region
33%
Increasing Depth
33%
Medicine and Dentistry
Dissipation
100%