Overview

This workshop aims at bringing together world experts in the field of relativistic plasma astrophysics to discuss recent progress in the understanding of magnetized plasmas surrounding neutron stars and black holes and related astrophysical phenomena from an observational, theoretical and computational perspectives.

Important dates

Conference dates: Sunday April 6, 2025 - Friday April 11, 2025.

Application and abstract submission: September 16, 2024 - December 1, 2024.

Notification to all applicants: December 15, 2024.

Registration fee

The registration fee is fixed to a flat rate of 300€ (taxes included). It will cover all expenses during your stay in Les Houches (meals and accommodation). Payment can be made by credit card, bank transfer or purchase order. A link to the online payment platform (Azur-Colloque) will be available soon.

Confirmed invited speakers

  • Andrei Beloborodov, Columbia University, USA
  • Roger Blandford, Stanford University, USA
  • Arache Djannati-Ataï, APC/CNRS, France
  • Gwenael Giacinti, Tsung-Dao Lee Institute, China
  • Hayk Hakobyan, Columbia University, USA
  • Yuri Lyubarsky, Ben-Gurion University of the Negev, Israel
  • Monika Mościbrodzka, Radboud University, Netherlands
  • Kohta Murase, Penn State, USA
  • Cherry Ng, LPC2E/CNRS, France
  • Nanda Rea, CSIC-ICE, Spain
  • Bart Ripperda, CITA-University of Toronto, Canada
  • Dmitri Uzdensky, University of Oxford, UK
  • Alexandra Veledina, University of Turku, Finland
  • Yajie Yuan, Washinton Univeristy, USA

Scientific organization committee

  • Benoît Cerutti, IPAG, France (chair)
  • Benjamin Crinquand, IRAP, France
  • Noémie Globus, Stanford University, USA - IA-UNAM, Mexico (2025)
  • Claire Guépin, LUPM, France
  • Amir Levinson, Tel Aviv University, Israel
  • Kyle Parfrey, PPPL, USA
  • Sasha Philippov, UMD, USA

Rationale

Some of the most energetic astrophysical phenomena are connected to the activity of the most compact stars in the Universe: neutron stars and black holes. These objects concentrate in their vicinity extremely large energy densities through multiple channels (gravitational, rotational, electromagnetic), which are then converted into structured magnetized plasma outflows (relativistic winds or jets) and energetic particles (electrons, positrons, ions, photons, neutrinos) with disconcerting efficiency. The non-trivial interplay between (general) relativistic effects, plasma physics and (quantum) electrodynamics leads to formidable challenges at the forefront of modern theoretical physics and high-performance computing.

By analogy to the Earth and other bodies in the Solar System endowed with an organized large-scale magnetic field, black holes and neutron stars can be surrounded by a "relativistic magnetosphere". This region plays a pivotal role in the formation of plasma outflows and particle acceleration. Like their non-relativistic analog, relativistic magnetospheres are intrinsically dynamic and sometimes reorganize abruptly via various plasma processes such as magnetic reconnection which give rise to pronounced particle acceleration and bursts of energetic radiation directly observable from Earth.

The emission of short pulses of light shaped by spinning neutron stars (pulsars) is a famous example of an astrophysical phenomenon most certainly involving an active relativistic magnetosphere. Although pulsars were discovered more than fifty years ago by radio astronomers, the origin of this emission remains today an outstanding puzzle. Giant X-ray magnetar flares – and their possible connection to the mysterious Fast Radio Bursts – are far more extreme and less well understood phenomena that involve another flavor of neutron star magnetospheres. Supermassive black hole magnetospheres may also play a crucial role in launching extragalactic relativistic jets observed in active galaxies. The first images of the M87* and SgrA* black holes obtained by the Event Horizon Telescope bring for the first time direct constraints on the innermost regions close to the black hole horizon possibly hosting a jet-launching magnetosphere. The discovery of hotspots orbiting at a few gravitational radii away from the SgrA* hole thanks to the exquisite astrometric measurements of the Gravity collaboration at the VLTI and ALMA provides other possible hints of an active magnetosphere.

The aim of this workshop is to bring together experts in the field of relativistic plasma astrophysics to highlight recent progress but also major shortcomings in our understanding of plasma flows and dissipative processes within the magnetospheres of compact objects from an observational, theoretical and computational perspective.

Sponsors

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Ecole de physique des Houches & partners

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