Calendar

Jan
10
mer
Romane Le Gal : How astrochemistry unravels our cosmic origins @ Univers 21
Jan 10 @ 11 h 00 min – 12 h 00 min
Séminaire
Astrochemistry, which strongly depends on the physical conditions of its environment, has started very shortly after the Big Bang and therefore represents an outstanding intermediary to study the chemical, physical and dynamical history of our Universe. In the recent years, significant improvements in laboratory astrophysics and new generations of radio ground (ALMA, NOEMA, FAST), airborne and space (SOFIA, Herschel, JWST) telescopes, are opening a new age of the Astronomy discovery, in which Astrochemistry constitutes a keystone in the interpretation of the new chemical “big data” at our fingertips unveiling the molecular Universe. In order to extract all the power of the molecular line diagnostics it is of prime importance to fully understand how the molecules detected are formed, excited and destroyed in the different type of environments where they are observed. In this talk I will present how my research combines radioastronomical observations and astrochemical modeling fed by theoretical and experimental studies to better understand our chemical Universe and its history. In particular, I will highlight the potential to study molecular abundance ratios and especially isomer ratios, such as nuclear-spin state molecular ratios from low-mass protostar envelops to protoplanetary disks. The influence of grain-surface chemistry will also be emphasized. I will show how the study of nuclear-spin astrochemistry, while still in its infancy, promises a florescence of new probes for the Universe comprehension.
Jan
24
mer
Nathalie Brouillet : Recherche de molécules complexes dans Orion-KL @ Univers 21
Jan 24 @ 11 h 00 min – 12 h 00 min
Séminaire

La nébuleuse d’Orion est l’une des régions célestes les plus observées de la Voie Lactée. Elle est le siège d’une intense formation stellaire particulièrement bien étudiée dans les domaines mm et submm qui révèlent l’intérieur des régions froides et sombres, inobservables en optique, où se forment les étoiles. La haute résolution spatiale et la sensibilité de l’interféromètre de l’IRAM au Plateau de Bure et de l’interféromètre ALMA, ainsi que la grande bande en fréquence offerte par ALMA nous ont permis de : cartographier l’émission de plusieurs molécules complexes organiques, estimer les abondances moléculaires et adresser quelques questions importantes en lien avec la complexité moléculaire dans Orion. Nos observations ne conduisent pas à un schéma unique de formation et d’excitation moléculaire, mais la chimie à l’œuvre dans les ‘fragments’ proto-stellaires au centre de la nébuleuse d’Orion peut être comparée à la chimie qui domine dans les comètes du système Solaire. 

Jan
30
mar
Jérémy Leconte : de la tasse de thé au climat terrestre… @ Univers
Jan 30 @ 11 h 00 min – 12 h 00 min
Séminaire
Fév
8
jeu
Gabriel Tobie: Characterizing ocean worlds in the Solar system and beyond @ Univers
Fév 8 @ 11 h 00 min – 12 h 00 min
Séminaire

The exploration of Jupiter’s and Saturn’s system respectively by Galileo (1996-2003) and Cassini-Huygens (2004-2017), has revealed that several moons around Jupiter (Europa, Ganymede, Callisto) and around Saturn (Titan, Enceladus, Mimas) harbor a subsurface salty ocean underneath their cold icy surface. By flying through the icy-vapor plume erupting from Enceladus’ south pole, Cassini proceeded for the first time to the analysis of fresh materials coming from an extraterrestrial ocean.  These analyses revealed that Enceladus possess all the ingredients for the emergence of life. Even if there is no direct evidence yet, similar ingredients might also be present within Europa, Ganymede and Titan, which will be characterized by future exploration missions currently under development at ESA (JUICE) and NASA (Europa Clipper, Dragonfly). 

 

Even if the astrobiological potential of these ocean worlds are very promising, at the exception of Enceladus, their oceanic environments are still poorly known. In this seminar, after giving an overview of the current knowledge on these ocean moons, I will present how future exploration and laboratory works will allow us to better determine the physico-chemical conditions of their subsurface oceans. In particular, I will discuss the possible occurrence of active aqueous processes on these bodies and the implications for the habitability of their subsurface oceans. Finally, I will discuss how the numerical models and experiments developed for ocean moons can be used to characterize the physico-chemical evolution of water-rich exoplanets that we are just starting to unveil.

Gabriel Tobie, Laboratoire de Planétologie et Géodynamique, CNRS/Univ. Nantes

Fév
15
jeu
Astro Cafe: Javier Olivares Romero @ Univers
Fév 15 @ 11 h 00 min – 12 h 00 min
Séminaire

TBD

Mar
6
mar
Live demo of Julia by Jean Baptiste Marquette @ Univers
Mar 6 @ 11 h 00 min – 12 h 00 min
Séminaire

TBD

Mar
14
mer
Pascal Jagourel : MOSAIC, a multi-object spectrographs for the ELT @ Univers 21
Mar 14 @ 11 h 00 min – 12 h 00 min
Séminaire

The workhorse instruments of the current 8-10m class observatories are multi-object spectrographs (MOS), providing comprehensive follow-up of ground-based and space-borne imaging data. With the advent of even deeper imaging surveys from, e.g., HST, VISTA, JWST and Euclid, many science cases require complementary spectroscopy with high sensitivity and good spatial resolution to identify the objects and to measure their astrophysical parameters. The light-gathering power of the 39m ELT and its spatial resolution, combined with a MOS, will enable the large samples necessary to tackle some of the key scientific drivers of the ELT project, ranging from studies of stellar populations out to the highest-redshift galaxies. Consequently, a MOS-facility is foreseen within the ELT instrumentation plan.

I will first and briefly describe MOSAIC prominent Science Cases and, then, enter into some details of the instrument conceptual design as available now at the end of phase A. I will discuss the present management of the project and will describe the way we are foreseeing the fabrication phase including the design phase towards the Final Design Review (FDR).

I will end the presentation by listing the main issues that are pending now and will have to be sorted out before Phase B starts (January 2019).

Mar
21
mer
Sebastian Wolf: Dust in debris disks @ Univers
Mar 21 @ 11 h 00 min – 12 h 00 min
Séminaire

Since circumstellar dust in debris disks is short-lived, dust-replenishing requires the presence of a reservoir of planetesimals which continuously supply the disk with fine dust through their mutual collisions. In this talk I will summarize selected studies related to the properties of this dust and the structure of debris disks on various scales.

Mar
22
jeu
Introduction to Supervised Regression and Classification with Machine Learning Methods — by Pierre Gratier @ Univers
Mar 22 @ 11 h 00 min – 12 h 00 min
Astro Cafe

Introduction to Supervised Regression and Classification with Machine Learning Methods

Mar
28
mer
François Boulanger: The Planck view at the magnetized dusty interstellar medium @ Univers
Mar 28 @ 11 h 00 min – 12 h 00 min
Séminaire

Observations of Galactic dust are a highlight and a lasting legacy of the Planck space mission.
Spectacular images combining the intensity of dust emission with the texture derived
from polarization data have received world-wide attention and become part of the general scientific
knowledge. Beyond this popular success, the dust maps are an immense step forward
for Galactic astrophysics, greatly superseding earlier observations. Planck has provided us with the data 
needed to statistically characterize the structure of the Galactic magnetic field and its coupling with 
interstellar matter and turbulence. Planck multi-frequency observations have also opened a new perspective 
on interstellar dust, upsetting existing models. Futrhermore, the astrophysics of dust emission has 
become inter-connected to a paramount objective of observational cosmology: the quest for curl-like 
(B-mode) polarization of the cosmic microwave background expected to arise from primordial 
gravitational waves produced during the inflation era in the very early Universe. I will introduce 
these science topics and highlight key results and perspectives of on-going research.

Francois Boulanger
Ecole Normale Superieure, Paris, France