Add to ORKGWe report on the results obtained with a stellar evolution code in which cyclic magnetic fields are imposed in the convection zone of a 1.0M star. Magnetic effects are incorporated in two ways: (1) the field pressure and energy den-sity are included in the equations of hydrostatic equilibrium and conservation of energy; and (2) the field inhibits the onset of convection according to a prescription derived by Gough & Tayler (1966). Inserting magnetic fields into the convection zone with strengths comparable to the observed global fields in the Sun, and assuming a simple depth de-pendence for the field strength, we find differences in luminosity and radius between nonmagnetic andmagneticmodels that are consistent in amplitude with the ob...
International audienceYoung solar-type stars rotate rapidly and many are magnetically active. Some a...
The Sun’s magnetic activity cycle varies primarily on a time scale of approximately 11yrs from minim...
A physical mechanism is proposed that couples the Sun's dynamo magnetic field to its gravitational p...
Although the occurrence of solar irradiance variations induced by magnetic surface features (e.g., s...
International audienceThe magnetic fields of solar-type stars are observed to cycle over decadal per...
Copyright © 2005 ESO / EDP SciencesBuried magnetic fields at the base of the convection zone and in ...
Context. The Sun and other cool stars harbouring outer convection zones manifest magnetic activity i...
Context. Several solar-like stars exhibit cyclic magnetic activity similar to the Sun as found in ph...
International audienceThe tachocline region inside the Sun, where the rigidly rotating radiative cor...
The tachocline region inside the Sun, where the rigidly rotating radiative core meets the differenti...
International audienceTwo fundamental properties of stellar magnetic fields have been determined by ...
For many decades, several research groups have developed sophisticated numerical models of the dynam...
. Numerical simulations of hydromagnetic turbulence in the presence of shear and/or convection have ...
Solar magnetic activity is generated through dynamo action operating at the base of the solar convec...
International audienceYoung solar-type stars rotate rapidly and many are magnetically active. Some a...
The Sun’s magnetic activity cycle varies primarily on a time scale of approximately 11yrs from minim...
A physical mechanism is proposed that couples the Sun's dynamo magnetic field to its gravitational p...
Although the occurrence of solar irradiance variations induced by magnetic surface features (e.g., s...
International audienceThe magnetic fields of solar-type stars are observed to cycle over decadal per...
Copyright © 2005 ESO / EDP SciencesBuried magnetic fields at the base of the convection zone and in ...
Context. The Sun and other cool stars harbouring outer convection zones manifest magnetic activity i...
Context. Several solar-like stars exhibit cyclic magnetic activity similar to the Sun as found in ph...
International audienceThe tachocline region inside the Sun, where the rigidly rotating radiative cor...
The tachocline region inside the Sun, where the rigidly rotating radiative core meets the differenti...
International audienceTwo fundamental properties of stellar magnetic fields have been determined by ...
For many decades, several research groups have developed sophisticated numerical models of the dynam...
. Numerical simulations of hydromagnetic turbulence in the presence of shear and/or convection have ...
Solar magnetic activity is generated through dynamo action operating at the base of the solar convec...
International audienceYoung solar-type stars rotate rapidly and many are magnetically active. Some a...
The Sun’s magnetic activity cycle varies primarily on a time scale of approximately 11yrs from minim...
A physical mechanism is proposed that couples the Sun's dynamo magnetic field to its gravitational p...