Calendar

Oct
17
mar
Clio Bertelli Motta : Testing stellar evolutionary effects in the old open cluster M67 (Astronomisches Rechen-Institut, Heidelberg) @ Univers
Oct 17 @ 11 h 00 min – 12 h 00 min
Séminaire

Single stellar populations, being born from the same molecular cloud at virtually the same time, are often assumed to share the same chemical composition. While this assumption is quite accurate for the initial chemical composition of the stars, once stellar evolution sets in it does not hold any longer. Processes such as atomic diffusion, the first dredge-up and extra-mixing result in variations in the stellar surface chemical composition depending on their evolutionary stage. This has broad implications: e.g., atomic diffusion effects put a constraint to the precision achievable by chemical tagging methods, while the post-dredge-up [C/N] ratio can be used for the age-dating of field stars. Open clusters are ideal examples of single stellar populations and are therefore extremely useful for the study of stellar evolution. I will present an investigation of stellar evolutionary effects in the well-known old open cluster M67 based on high-resolution spectra from APOGEE and the Gaia-ESO Survey, including a comparison with the predictions of stellar evolutionary models.

Oct
18
mer
Laure Ciesla — Spectral Energy Distribution of Galaxies: a tool to probe their star formation histories @ Univers
Oct 18 @ 11 h 00 min – 12 h 00 min
Séminaire

With the wealth of ancillary data available in large domains of the 
spectrum (GALEX, HST, CFHT, Spitzer, Herschel, etc), panchromatic studies of 
galaxies are thus one of the keys to understand how galaxies evolved since their 
formation. After describing the assets of spectral energy distributions (SED) 
analysis and explaining how we can model them, I will discuss the star formation history of the 
bulk of galaxies and show with a concrete case 
how we can identify and characterize galaxies 
than underwent a rapid star 
formation quenching with a sample of well-known local galaxies, the Herschel 
Reference Survey. This sample contains galaxies from the field but also from the 
dense environment of the Virgo cluster. From this pilot study, I will go to 
higher redshifts in order to blindly identify sources that have just been 
quenched using CANDELS/GOODS-South data and try to identify possible causes for 
this.

Nov
8
mer
Pascal Rosenblatt : Expérience de géodésie spatiale dans le système solaire: Quel rôle peut jouer la technique VLBI? @ Univers 21
Nov 8 @ 11 h 00 min – 12 h 00 min
Séminaire
Les expériences de géodésie spatiale sont des expériences effectuées pratiquement à chaque mission vers un corps du système solaire (planètes, astéroïdes, comètes). Elles fournissent, en l’absence de mesures sismiques, le plus d’information concernant la structure interne des corps via la détermination du champ de gravité, des variations de rotation et d’orientation de ces mêmes corps. Parmi ses plus grandes réussites, citons la découverte d’un noyau liquide au sein de Mars et de Vénus. 
La mesure utilisée par ces expériences de géodésie spatiale est une mesure de poursuite de la sonde. Elle est établie grâce à un lien radio-fréquence (typiquement en bande X à 8.4 GHz) entre la sonde interplanétaire et des antennes sur Terre dédiées à ces mesures de poursuite.
Elles fournissent des mesures du temps lumière aller-retour et de la vitesse relative entre la sonde et la station terrestre à partir desquelles est reconstruite précisement la trajectoire de la sonde autour du corps ciblé par la mission. C’est à partir de cette reconstruction de trajectoire que sont extraits le champ de gravité et autres paramètres de rotation.
La technique VLBI est aussi utilisée par ces mêmes antennes de poursuite pour faire des mesures de position sur fond de ciel de ces sondes en recueillant le signal radio émis par la sonde, fournissant ainsi des mesures de position des corps autour desquelles elles gravitent. 
 
Récemment l’équipe de JIVE/ERIC a développé cette technique en rajoutant la mesure de l’effet Doppler à chaque station recevant le signal radio émis par la sonde. La technique se nomme PRIDE (Planetary Radio Interferometry and Doppler Experiment) et a été testé avec succès sur des mesures de poursuite des sondes de l’ESA, telles que Huygens, Mars Express et Venus Express. PRIDE a été également retenue sur la mission de l’ESA JUICE qui devrait atteindre la lune de Jupiter Ganymède en 2031, en excellent complément de l’expérience de radio-science utilisant le réseau d’antennes classiques.
 
Ce séminaire s’attachera à montrer certains aspects techniques de l’expérience PRIDE et les derniers résultats obtenus avec le survol de la lune de Mars Phobos effectués par la sonde Mars Express en décembre 2013. Ce séminaire veut aussi atteindre les étudiants dans le but d’enrichir leur connaissance et de susciter quelques vocations dans la discipline de la radio-science interplanétaire.
Nov
29
mer
Yamila Miguel : Jupiter internal structure and the first Juno results @ 261
Nov 29 @ 11 h 00 min – 12 h 00 min
Séminaire

The key to understand our origins is in the interiors and atmospheres of the giant planets. Jupiter is the biggest planet in our system and the most influential one: its large mass shaped the architecture of the solar system and due to its fast formation it contains valuable information of the solar system formation history. 

In orbit since July 2016, the first orbits of Juno mission had led to a remarkable improving of the planet gravity data, changing our knowledge of the planetary interior and leading to a much better comprehension of the giant planet and its role in the solar system.  

In this seminar, I will present the new Juno results, the models we use to understand Jupiter’s interior and its differential rotation and the main challenges and questions that remained to be solved. 

Déc
4
lun
Shin’ichiro Asayama : Overview of the East Asia ALMA Development Program @ Univers
Déc 4 @ 11 h 00 min – 12 h 00 min
Séminaire

ALMA has already produced many impressive and scientifically compelling results. However, continuous technical upgrades and development are key for ALMA to continue to lead astronomical research through the 2020-2030 decade and beyond. The East Asia ALMA development program consists of the execution of short term projects, and the planning and initial studies for longer term developments that are essential for future upgrades. We present an overview of all these ongoing East Asia ALMA development projects and upgrade studies, which aim to maintain and even increase the outstanding scientific impact of ALMA in the near future and over the coming decades. 

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