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OSUG - Terre Univers Environnement OSUG

Séminaire du Jeudi 28 Novembre 2013

Bridging planetary and stellar dynamos : can we learn something about the magnetism of M dwarfs ?

Thomas Gastine (MPIS) Thursday November 28th - 11am Manuel Forestini Seminar Room - IPAG

The magnetic fields of planets and rapidly rotating stars are thought to be maintained by convection-driven dynamos operating in their interiors. Asymptotic scaling laws recently derived from geodynamo-like numerical models successfully predict the magnetic field strength of a wide range of astrophysical objects encompassing Earth, Jupiter and some rapidly-rotating stars. This emphasises the possible similarities between the dynamo mechanisms at work in planets and active M dwarfs.

Recent spectropolarimetric observations of M stars show a broad variety of large-scale magnetic fields ranging from dipole-dominated to multipolar topologies. Combining global-scale numerical dynamo models and observational results, we want to better understand the similarities of dynamos in planets and low-mass stars. To study the physical mechanisms that control the magnetic field morphology in these objects, we have explored the influence of rotation rate, convective vigor and density stratification on magnetic field properties in anelastic dynamo models.

In such models, the relative importance of inertia in the force balance - quantified by the local Rossby number - is thought to have a strong impact on the magnetic field geometry. The observed transition between dipole-dominated and multipolar large-scale dynamos in early to mid M dwarfs is therefore tentatively attributed to a Rossby number threshold. We interpret late M dwarfs magnetism to be the consequence of a dynamo bistability occurring at low Rossby number, and predict different amplitudes of differential rotation on these two dynamo branches.

Sous la tutelle de:


Sous la tutelle de:

CNRS Université Grenoble Alpes