Cosmic turbulence and Magnetic fields: physics of baryonic matter across time and scales
1-1 oct. 2023
Institut d'Etudes Scientifiques, Cargèse - Cargèse (Francia)
Gravity drives the evolution of the universe, but the gas dissipative dynamics is a central, yet unsolved, issue in the theory of galaxy formation. Current theories succeed in reproducing the observed mass distribution of galaxies only by introducing powerful stellar and black hole feedback that alleviate the rapid gas cooling and condensation into stars. An emergent alternative is that a large fraction of the gas internal energy is stored in turbulent motions instead of being radiated away and lost. Turbulence however adds a huge level of complexity to the physics of baryonic matter because cosmic turbulence involves magnetic fields and the plasma nature of the gas and because it pervades all the thermal phases from the hottest at more than one million Kelvin to the coldest at about 10 Kelvin in which stars form. The prodigious development of new facilities on the observational side, and the fast increase of computing power on the modeling side are opening up the field, calling for new multi-disciplinary approaches. This conference is related to research funded by an advanced ERC grant at ENS in Paris (2017-2022). It will gather astrophysicists, observers and theorists of the local and high-redshift universe, and experts of turbulence and plasma physics. The goal of the meeting is to facilitate cross-pollination of research in fields of astrophysics and physics that are usually discussed separately. We expect the conference to open new kinds of collaborations for the benefit of the young generations.
Disciplina científica : Nonlinear Sciences - Physics - Sciences of the Universe - Astrophysics - Cosmology and Extra-Galactic Astrophysics - Galactic Astrophysics - High Energy Astrophysical Phenomena - Solar and Stellar Astrophysics
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