Combining theory, simulations and laboratory experiments, I investigate fluid dynamics with a focus on planetary liquid cores. I thus consider magnetic fields, temperature variations, and weakly non-spherical fluid domains. I am particularly interested by the influence of the orbital forcings (tides, precession, libration) and topographic effects at the Core-Mantle-Boundary (CMB).
Planetary magnetic fields
Paleomagnetic data from our ANR MagLune, led by J. Gattacceca, confirm the puzzling existence of a strong long-lived dynamo on the Early Moon.
The usual convection model is unable to explain these data : how the early lunar dynamo was then powered ?
My ERC project aims at studying a promising alternative scenario, based on precession of a non-spherical core.
Beyond the Early Moon issue, we have also shown that tides may have been large enough to participate to the Early Earth dynamo field (Landeau et al., Nature Rev., 2022). This could be critical as the convection model may be questioned by the large reported values of thermal conductivity.
I study fluid waves which play a key role in planetary core dynamics. Their non-linear interaction can notably drive inertial instabilities, and bulk-filling turbulence.
Incidentally, imaging the flow in our ZoRo experiment requires us to implement a new velocimetry method based on acoustic waves (Su, 2020).
With J. Vidal, I have thus developed new tools to study core waves under the combined effects of rotation, magnetic fields, density variations & compressibility.
The Earth’s nutations and the lunar librations data constrain the respective dissipation in the fluid liquid of the Earth and the Moon. However, they both disagree with the latest models.
To try solving this issue, my ERC project aims at studying non-spherical cores with topographic effects. Turbulence will be addressed with laboratory experiments.
Beyond planetary cores, I am interested by magneto-hydrodynamics in other contexts such as laboratory experiments or stars. I have thus collaborated with astrophysicists to investigate protostellar spin-down or massive binary stars.
I have also designed and published a study of a pedagogical MHD experiment for students : a MHD powered boat.
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– COMSOL Multiphysics
I have developed various COMSOL models, simulating magnetic (…)