Large scale magnetic field generation via inertial wave dynamo
ORAL
Abstract
Large scale magnetic field generation via inertial wave dynamo:
Measurements from the Galileo probe indicate a large scale magnetic field of 750 nT on Ganymede, one of Jupiter's moons. This magnetic field far exceeds the strength which could be generated by a dynamo driven by compositional and thermal convection, such as that which generates the Earth's magnetic field. This works investigates an alternative form of magnetic field generation which could solve this conumdrum. In this framework, inertial waves, those whose restoring force is the Coriolis force, are responsible for generating a large scale magnetic field providing only waves propagating in one direction are present. We utilize a novel 2D eigenvalue solver to determine the growth rate of the magnetic energy in such a system, and compare to both initial value problems and predictions given by asymptotic theory.
Measurements from the Galileo probe indicate a large scale magnetic field of 750 nT on Ganymede, one of Jupiter's moons. This magnetic field far exceeds the strength which could be generated by a dynamo driven by compositional and thermal convection, such as that which generates the Earth's magnetic field. This works investigates an alternative form of magnetic field generation which could solve this conumdrum. In this framework, inertial waves, those whose restoring force is the Coriolis force, are responsible for generating a large scale magnetic field providing only waves propagating in one direction are present. We utilize a novel 2D eigenvalue solver to determine the growth rate of the magnetic energy in such a system, and compare to both initial value problems and predictions given by asymptotic theory.
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Presenters
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Emma Kaufman
Northwestern University
Authors
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Emma Kaufman
Northwestern University
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Daniel Lecoanet
Northwestern University
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Michael Le Bars
CNRS
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Benjamin Favier
IRPHE, Universite Aix-Marseille