Magnetization of sinking porous diapirs in planetesimal cores

Earth and Planetary Sciences

• Addition 14%
• Condition 14%
• Convection 14%
• Core 100%
• Delamination 14%
• Descent 14%
• Diapir 100%
• Diapirism 14%
• Dipole Moment 14%
• Distortion 14%
• Downwelling 14%
• Energy Budget 14%
• Internal Pressure 14%
• Interval 14%
• Liquid 14%
• Liquid Metal 14%
• Magnetic Field 14%
• Magnetization 100%
• Magnetohydrodynamics 14%
• Melt 14%
• Meteorite 14%
• Protoplanets 100%
• Rapid 14%
• Remanent Magnetization 14%
• Rotating Generator 71%
• Sinking 100%
• Size 14%
• Solid 42%
• Solidification 14%

Physics

• Asteroid 20%
• Convection 20%
• Cores 100%
• Delamination 20%
• Internal Pressure 20%
• Intervals 20%
• Liquid Metals 20%
• Liquids 20%
• Magnetic Fields 20%
• Magnetization 100%
• Magnetohydrodynamics 20%
• Meteorites 20%
• Planetesimal 100%
• Protoplanets 20%
• Pulses 20%
• Remanent Magnetization 20%
• Sinking 100%
• Solid State 60%
• Solidification 20%
• Viscosity 20%

INIS

• asteroids 16%
• convection 16%
• dipole moments 16%
• downwelling 16%
• energy budgets 16%
• freezing 16%
• liquid metals 16%
• liquids 16%
• magnetic fields 16%
• magnetization 100%
• magnetohydrodynamics 16%
• meteorites 16%
• porous materials 100%
• pulses 16%
• size 16%
• solidification 16%
• solids 50%
• viscosity 16%