International audienceThe frozen flux assumption consists in neglecting magnetic diffusion in the core. It has been widely used to compute core flows from geomagnetic observations. Here we investigate the validity of this assumption over the time interval 1980–2005, using high‐ precision magnetic data from the Magsat, Ørsted, and CHAMP satellites. A detectable change of magnetic fluxes through patches delimited by curves of zero radial magnetic field at the core‐mantle boundary is associated with a failure of the frozen flux assumption. For each epoch (1980 and 2005), we calculate spatially regularized models of the core field which we use to investigate the change of reversed magnetic flux at the core surface. The largest and most robust c...
International audienceQuasi-geostrophic core flow models are built from two secular variation models...
International audienceSince the time Roberts & Scott (1965) first expressed the key 'frozen flux' hy...
International audienceWe invert for motions at the surface of Earth's core under spatial and tempora...
International audienceThe frozen flux assumption consists in neglecting magnetic diffusion in the co...
International audienceThe frozen flux assumption consists in neglecting magnetic diffusion in the co...
International audienceSatellite-data allows the magnetic field produced by the dynamo within the Ear...
Changes in the magnetic field generated within Earth's core that occur over years to centuries are k...
We describe a new technique for implementing the constraints on magnetic fields arising from two hyp...
International audienceWe use numerical dynamos to investigate the possible role of magnetic diffusio...
Earth’s internal magnetic field is generated through motion of the electrically conductive iron-allo...
Earth’s internal magnetic field is generated through motion of the electrically conductive iron-allo...
Secular variation (SV) of Earth’s internal magnetic field is the sum of two contributions, one resul...
International audienceThe tilt of the geomagnetic dipole decreased from about 11.7◦ in 1960 to 10.5◦...
The magnetic determination of the depth of the core-mantle boundary using MAGSAT data is discussed. ...
International audienceTo understand the dynamics of the Earth’s fluid, iron-rich outer core, only in...
International audienceQuasi-geostrophic core flow models are built from two secular variation models...
International audienceSince the time Roberts & Scott (1965) first expressed the key 'frozen flux' hy...
International audienceWe invert for motions at the surface of Earth's core under spatial and tempora...
International audienceThe frozen flux assumption consists in neglecting magnetic diffusion in the co...
International audienceThe frozen flux assumption consists in neglecting magnetic diffusion in the co...
International audienceSatellite-data allows the magnetic field produced by the dynamo within the Ear...
Changes in the magnetic field generated within Earth's core that occur over years to centuries are k...
We describe a new technique for implementing the constraints on magnetic fields arising from two hyp...
International audienceWe use numerical dynamos to investigate the possible role of magnetic diffusio...
Earth’s internal magnetic field is generated through motion of the electrically conductive iron-allo...
Earth’s internal magnetic field is generated through motion of the electrically conductive iron-allo...
Secular variation (SV) of Earth’s internal magnetic field is the sum of two contributions, one resul...
International audienceThe tilt of the geomagnetic dipole decreased from about 11.7◦ in 1960 to 10.5◦...
The magnetic determination of the depth of the core-mantle boundary using MAGSAT data is discussed. ...
International audienceTo understand the dynamics of the Earth’s fluid, iron-rich outer core, only in...
International audienceQuasi-geostrophic core flow models are built from two secular variation models...
International audienceSince the time Roberts & Scott (1965) first expressed the key 'frozen flux' hy...
International audienceWe invert for motions at the surface of Earth's core under spatial and tempora...