Adrianne Slyz

A Galaxy in the Making

NUMERICAL MODELING OF SPACE PLASMA FLOWS ASTRONUM-2009 429 (2010) 154-159

Authors:

Adrianne Slyz, Julien Devriendt, Leila Powell

Modeling high-redshift galaxies: what can we learn from high and ultra-high resolution hydrodynamical simulations?

STELLAR POPULATIONS: PLANNING FOR THE NEXT DECADE (2010) 248-+

Authors:

J Devriendt, A Slyz, L Powell, C Pichon, R Teyssier

The dusty, albeit ultraviolet bright infancy of galaxies

ArXiv 0912.0376 (2009)

Authors:

J Devriendt, C Rimes, C Pichon, R Teyssier, D Le Borgne, D Aubert, E Audit, S Colombi, S Courty, Y Dubois, S Prunet, Y Rasera, A Slyz, D Tweed

Abstract:

The largest galaxies acquire their mass early on, when the Universe is still youthful. Cold streams violently feed these young galaxies a vast amount of fresh gas, resulting in very efficient star formation. Using a well resolved hydrodynamical simulation of galaxy formation, we demonstrate that these mammoth galaxies are already in place a couple of billion years after the Big Bang. Contrary to local starforming galaxies, where dust re-emits a large part of the stellar ultraviolet (UV) light at infrared and sub-millimetre wavelengths, our self-consistent modelling of dust extinction predicts that a substantial fraction of UV photons should escape from primordial galaxies. Such a model allows us to compute reliably the number of high redshift objects as a function of luminosity, and yields galaxies whose UV luminosities closely match those measured in the deepest observational surveys available. This agreement is remarkably good considering our admittedly still simple modelling of the interstellar medium (ISM) physics. The luminosity functions (LF) of virtual UV luminous galaxies coincide with the existing data over the whole redshift range from 4 to 7, provided cosmological parameters are set to their currently favoured values. Despite their considerable emission at short wavelengths, we anticipate that the counterparts of the brightest UV galaxies will be detected by future sub-millimetre facilities like ALMA

The dusty, albeit ultraviolet bright infancy of galaxies

(2009)

Authors:

J Devriendt, C Rimes, C Pichon, R Teyssier, D Le Borgne, D Aubert, E Audit, S Colombi, S Courty, Y Dubois, S Prunet, Y Rasera, A Slyz, D Tweed

The Skeleton: Connecting Large Scale Structures to Galaxy Formation

ArXiv 0911.3779 (2009)

Authors:

Christophe Pichon, Christophe Gay, Dmitry Pogosyan, Simon Prunet, Thierry Sousbie, Stephane Colombi, Adrianne Slyz, Julien Devriendt

Abstract:

We report on two quantitative, morphological estimators of the filamentary structure of the Cosmic Web, the so-called global and local skeletons. The first, based on a global study of the matter density gradient flow, allows us to study the connectivity between a density peak and its surroundings, with direct relevance to the anisotropic accretion via cold flows on galactic halos. From the second, based on a local constraint equation involving the derivatives of the field, we can derive predictions for powerful statistics, such as the differential length and the relative saddle to extrema counts of the Cosmic web as a function of density threshold (with application to percolation of structures and connectivity), as well as a theoretical framework to study their cosmic evolution through the onset of gravity-induced non-linearities.