Des archives aux bases de donnée. Ce programme, propre au Service d'Astrophysique et UMR AIM, comprend l'ensemble des données résultant des programmes d'observations, des projets de simulations ou d'instrumentation. From archives to databases. This research program of the Astrophyscis Division and UMR AIM, consists of all the data resulting from observing programs, simulation projets or instrumentation.
Development and integration platform for astrophysics
The development and construction of space instruments is one of the strengths of the astrophysics department.
Research at AIM is based on three pillars: space instrumentation, observations, and modeling.
Du calcul à la simulation numérique. Ce programme, propre au Service d'Astrophysique et UMR AIM, comprend l'ensemble des projets en théorie et modélisation. From calculation to numerical simulation. This research program of the Astrophyscis Division and UMR AIM, consists of all the theoretical and modelisation project.
Detectors for both infinite physics
In the fields of instrumentation, Irfu's teams carry out the necessary instruments to see through its research in subatomic physics, astrophysics and cosmology. From the mechanical design of detectors to the realization and characterization of prototypes, and finally the integration and testing of final detectors, there are numerous expertises such as microstructured gas detectors, imagers and space spectro-imagers in different wavelengths (gammas, X, visible, infrared and submillimetre waves).
Evolution of the large structures and galaxies
Today our Universe is made up of stars, galaxies, clusters of galaxies but also huge voids. Yet when it was born over 13 billion years ago, matter was evenly distributed. To understand the physical mechanisms responsible for this scenario, we need to trace the history of galaxies and their clustering by combining the three pillars which are observations, theoretical data modelling and numerical simulations.
Galaxy formation and evolution
Observational Cosmology has reached an important turning point. After years of seeking the parameters that govern the evolution of the Universe, there seems to be increasing consensus in acknowledging the dominant influence of dark matter on baryons and that of dark energy on dark matter.
Planets, star's formation and dynamics, interstellar medium
We are studying how stars work, the Sun first of all. We have deepened our knowledge of the Sun via helioseismology observations (discovery of global gravity modes with SOHO-GOLF (Garcia et al., Science 316, 1591 (2007)) and large magneto-hydrodynamics simulations on massively parallel computers (Brun et al. ApJ, 742, 79).
The most intriguing development in modern cosmology is to realise that the better part of the Universe is essentially of unknown nature. This conclusion relies on two types of observations. The first one is the indirect evidence since decades of the presence of a large quantity of invisible matter, called dark matter, whose gravitational influence spans all cosmic scales, from galaxy to clusters of galaxies, and the whole Universe.
High energy cosmic phenomena and astroparticles
At high energies, the violent phenomena of the Universe are linked to the production of radiation and particles such as X-rays, gamma rays, subatomic particles of all types (charged particles, neutrinos, etc.) and to the extreme th gravitational radiation. The aim of studying this radiation is to understand what mechanisms are capable of producing the acceleration of galactic and extragalactic particles within compact objects and their environment.
Research at AIM is based on three pillars: space instrumentation, observations, and modeling. The AIM instrumentation team specializes in advanced astronomy detectors, guided by the question: "How can we create detectors to address specific astrophysical questions?" Collaborating closely with AIM's interpretation laboratories, the instrumentation team contributes to the design, testing, and utilization of space-based and ground-based instruments.
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Dernière mise à jour : Jul 25th, 2024
