Low-latency alerts & Data analysis for Multi-messenger Astrophysics

Europe/Paris
Online

Online

Description

For more than a decade now, multi-messenger astrophysics has established itself as a distinct discipline. To provide new insights and understand the properties and processes of the most energetic events in the Universe, it leverages the potential of the combined analysis of multiple and complementary information sources: electromagnetic waves (or photons) from radio waves to gamma-rays, neutrinos, gravitational waves and high-energy cosmic rays.

Two major and historical events are at the foundation of this new paradigm: the supernova SN1987A and the binary neutron star merger GW170817. The former was observed through electromagnetic waves and neutrinos, while the latter in gravitational waves and a wide range of electromagnetic counterparts. Both events yielded a long list of scientific discoveries and implications that directly arise from the concomitant observation of different cosmic signals from a single source.

Thanks to the new generation of more sensitive detectors and observatories planned for the coming decade, other multi-messenger observations are expected to take place that will further expand the scope of this new astronomy.

Information access and dissemination between experiments are at the core of this science. As a consequence, interoperable cyberinfrastructures and proper communication networks will play a central role in the rapid identification of candidate events in the very large volume of data, and production of “alerts” associated with these events.

The aim of this workshop is to provide an overview of the existing and future developments from a data analysis perspective of the space-based and ground-based infrastructures, identify and discuss technical issues and foster new interactions and community building around the multi-messenger data analysis science and tools. The workshop, organized under the auspices of APPEC, is the first of a potential series if deemed useful by the community.

The roundtable sessions will foster discussions on the following
non-exhaustive list of topics:

- Coordinating European infrastructures for data analysis for space and ground-based observatories

- Research infrastructure partnerships for combination of messengers

- New analysis tools for the transient Universe, data format, sharing of results

- Efficient and scalable machine learning algorithms to identify best candidates for transients

- Big data needs (HPC, cloud computing)

- Building a community of experts for developing common libraries and tools

- EOSC and open data for observatories

- Collaboration at European level: what is the path to a common strategy?

 

AHEAD 2020 project

APPEC Mid-term review feedback

ASTRONET Roadmap community consultation

Participants
  • Achim Stahl
  • Adithiya Dinesh
  • Albert Kong
  • Alberto Mangiagli
  • Alejo Cifuentes
  • Alessandro Carosi
  • Alessio Berti
  • Alice Townsend
  • Ambra Di Piano
  • Anais Möller
  • Andrea Bulgarelli
  • Andreas Haungs
  • Andrii Neronov
  • Angela Zegarelli
  • Anna Franckowiak
  • Antoine Kouchner
  • Antonio Stamerra
  • Argyro Sasli
  • Armand Fiasson
  • Arnau Aguasca-Cabot
  • Aurelia Olivier-Kaiser
  • Bruno Khelifi
  • C Markou
  • Carlotta Pittori
  • Catherine Biscarat
  • Catherine Boisson
  • Chiara Righi
  • Ciro Bigongiari
  • Claudio Gasbarra
  • Cyril Lachaud
  • Cécile Cavet
  • Daniela Dorner
  • Daniele Belardinelli
  • David Sanchez
  • Delphine Porquet
  • Didier Verkindt
  • Domenico della Volpe
  • Dominique Boutigny
  • Domitilla de Martino
  • Ed Porter
  • Edoardo Milotti
  • Elena Pian
  • Elisabetta Maiorano
  • Eric Chassande-Mottin
  • Eric Fede
  • Erik Katsavounidis
  • Erwan Quintin
  • Erwann Masson
  • Fabian Schüssler
  • Federica Legger
  • Feifei Huang
  • Foteini Oikonomou
  • Francesco Longo
  • Franco Carbognani
  • Francois Vannucci
  • Gabriele Panebianco
  • Giancarlo Ghirlanda
  • Giuseppe Greco
  • Grégory Baltus
  • Houri Ziaeepour
  • Hugo Alberto Ayala Solares
  • Irene Di Palma
  • Jakob Nordin
  • James Rodi
  • Jean-Philippe Lenain
  • jigar bhanderi
  • Joe Smolsky
  • Johan Bregeon
  • JOHANN COHEN-TANUGI
  • John Swinbank
  • Jordi Delgado
  • Jorge Carretero
  • Jowita Borowska
  • Julien Peloton
  • Kate SCHOLBERG
  • Katharina Henjes-Kunst
  • Katrin Link
  • Ken Smith
  • Kendall Ackley
  • Kevin Franceschetti
  • Khun Sang Phukon
  • Kishore Tiwari
  • Klaas Wiersema
  • Leïla Haegel
  • Lorenzo Natalucci
  • Manuel Artero
  • Marco Mattiazzi
  • Marcus Fenner
  • Marek Kowalski
  • maria assiduo
  • Maria Lisa Brozzetti
  • marie anne bizouard
  • Marion Pillas
  • Marta Colomer Molla
  • Mathieu Lamoureux
  • Mathieu Servillat
  • Matteo Cerruti
  • Matthias Fuessling
  • Matyas Vasuth
  • Melih Kara
  • Merlin Kole
  • Michael Schimp
  • Mickael Rigault
  • Miquel Miravet-Tenés
  • Montaruli Teresa
  • Natalia Korsakova
  • Natalie Webb
  • Nial Tanvir
  • Nicolò Parmiggiani
  • Nunziato Sorrentino
  • Olga Sergijenko
  • Olga Suvorova
  • Panagiotis Iosif
  • Patrice Verdier
  • Patrick Brady
  • Paula Sanchez Saez
  • Pavlo Plotko
  • Peter Shawhan
  • Phil Evans
  • Pierre Chanial
  • Regis Terrier
  • Rhys Poulton
  • Ricardo Peres
  • Rob Eyles-Ferris
  • Roberto De Pietri
  • Roy Williams
  • Salvatore Mangano
  • Sara Buson
  • Sara Vallero
  • Sergey Troitsky
  • Shashwat Singh
  • Shubham ILHE
  • Silvia Celli
  • Sonia El Hedri
  • Sruthiranjani Ravikularaman
  • Stavros Katsanevas
  • Stefan Funk
  • Stefan Ohm
  • Stefan Wagner
  • Stefano Bagnasco
  • Stephane Schanne
  • Steven Schramm
  • Susanna Vergani
  • Sylvain Marsat
  • Sébastien Le Stum
  • Takahiro Sawada
  • Thomas Killestein
  • Tista Mukherjee
  • Tito Dal Canton
  • Tommaso Aniello
  • Towheed Ahmad Nengroo
  • Tristano Di Girolamo
  • Ulisses Barres de Almeida
  • Veronique Van Elewyck
  • Victor Matveev
  • Vivienne Langen
  • Volker Beckmann
  • Volodymyr Savchenko
  • Yvonne Becherini
  • Željka Bošnjak