Journal Club//2010 1st quarter
Journal Club on 26/01/2010
Search for unstable elements in an Ap star descendant
By Marc Joos (LRA, ENS)
Room D18 (2nd floor) at ENS, 24 rue Lhomond, 13:30 to 14:00
EK Eridani (HD 27536) is a probable descendant of an Ap star. Chemical abundances are precisely determined for this star in order to shed a new light on the chemical composition of Ap stars. This Ap star descendant has indeed a more easily interpretable spectrum compared to an Ap star.
Spallation scenario predictions, which are consistent with abundances measured in Pryzbylski's star, are tested in EK Eridani. Co/Fe ratio and lithium isotopic ratio Li-6/Li-7 are determined and we seek an overabundances of unstable elements.
No remarkable abundance anomaly is found. The two ratio criteria, used for the first time, show no vestige of spallation processes which might have occured on the surface of EK Eridani.
Spallation scenario predictions, which are consistent with abundances measured in Pryzbylski's star, are tested in EK Eridani. Co/Fe ratio and lithium isotopic ratio Li-6/Li-7 are determined and we seek an overabundances of unstable elements.
No remarkable abundance anomaly is found. The two ratio criteria, used for the first time, show no vestige of spallation processes which might have occured on the surface of EK Eridani.
Last update 01-20-2010 02:06 pm / Henrik Latter
Journal Club on 09/02/2010
Triggered star formation in dark clouds
By Bhaswati Mookerjea (Tata Institute, India)
Room D18 (2nd floor) at ENS, 24 rue Lhomond, 13:30 to 14:00
Observational and theoretical studies of star formation over the last
decade or so have increasingly strengthened the idea that massive
young stars play an important role in triggering the formation of
the subsequent generation of stars. Many of the observations can be
reasonably well explained by the two most commonly used models:
Radiation Driven Implosion (RDI) and Collect-and-Collapse. One general
problem of scenarios of triggered star formation is that it is hard to
obtain a clear proof of causality: YSOs and ongoing star formation
near shocks do not necessarily imply triggered star formation.
Additional estimates of age and age-spread of the YSOs are required to
convincingly prove the triggering of star formation.
In this talk I will discuss some aspects of the formation of stars in the
Cometary globule Ori I-2 and the bright rimmed cloud (BRC) IC1396 N
using mid-infrared observations using IRAC and MIPS instruments
onboard the Spitzer Space Telescope.
Last update 02-04-2010 12:17 pm / Henrik Latter
Journal Club on 16/02/2010
Fluctuation dynamos at high Rm : a succesful mean field approach
By Wietze Herreman (LRA, ENS)
Room D18 (2nd floor) at ENS, 24 rue Lhomond, 13:30 to 14:00
In many dynamo theory textbooks, the classical high conductivity limit analysis for fluctuation flows is often one of the first examples that leads to explicit formulas for alpha and beta tensors. From numerical simulations of dynamo problems at high Rm, we know however that these formulas generally do not represent physical reality. In the present work, we reconsider a mean field theory which only uses temporal averaging. We reveal how general spatially dependent formulas for alpha and beta tensors,can in fact be drastically simplified for broad classes of fluctuation flows, and that this leads to a much simpler mean field effect than expected. The mean field itself satisfies an induction equation, with a spatially dependent magnetic pumping. We test our findings on a well chosen example, in which we realise a G.O. Roberts magnetic pumping flow, using periodic or even random fluctuation flows at low magnetic diffusivity. This is probably the first time that a SOCA mean-field theory models the dynamo correctly in the high conductivity limit. The theory is then applied to study whether single inertial waves can drive mean field dynamos in different fluid domains.
Last update 02-04-2010 12:17 pm / Henrik Latter
Journal Club on 09/03/2010
Baroclinic instabilities in accretion discs
By Geoffroy Lesur (DAMTP, Cambridge)
Room D18 (2nd floor) at ENS, 24 rue Lhomond, 13:30 to 14:00
Vortices are hydrodynamic structures which are often found in 2D or quasi 2D flows such as planetary atmospheres. The presence of vortices in protoplanetary discs could be an appealing way of understanding planet formation and angular momentum transport phenomena. In this seminar, I will review some of the mechanisms which could produce vortices in discs and I will in particular present recent results on baroclinic instabilities. I will also discuss secondary effects such as wave emission, 3D instabilities and vortex migration.
Last update 03-02-2010 11:19 am / Henrik Latter
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