Julien Devriendt

Non-Standard Structure Formation Scenarios

Chapter in The Evolution of Galaxies, Springer Nature (2003) 41-46

Authors:

Alexander Knebe, Brett Little, Ranty Islam, Julien Devriendt, Asim Mahmood, Joe Silk

Predicting Multi-Wavelength Properties of Lyman Break Galaxies with GalICS

Chapter in The Evolution of Galaxies, Springer Nature (2003) 79-82

Authors:

Jérémy Blaizot, Bruno Guiderdoni, Julien EG Devriendt, Francqis R Bouchet, Steve Hatton

Predicting multi-wavelength properties of Lyman break galaxies with GalICS

ASTROPHYS SPACE SCI 284:2 (2003) 373-376

Authors:

J Blaizot, B Guiderdoni, JEG Devriendt, FR Bouchet, S Hatton

Abstract:

GalICS (for GALaxies In Cosmological Simulations) is a model of hierarchical galaxy formation which combines high resolution numerical simulations for the dark matter component with semi-analytic prescriptions for the baryonic matter. It provides us with an explicit cosmological framework to analyse observations of distant galaxies, and to understand how they evolve to become local galaxies. We use GalICS to build multi-wavelength mock galaxy catalogues which include clustering properties. We can compare them to the sample of Lyman Break Galaxies at z=3 ( Steidel et al., 1996), and to deep sub-mm surveys. The predictions of the model will be detailed, and show a good agreement with the available data.

Star Formation in a Multi-Phase Interstellar Medium

Chapter in The Evolution of Galaxies, Springer Nature (2003) 539-542

Authors:

Adrianne Slyz, Julien Devriendt, Greg Bryan, Joseph Silk

GALICS: Capturing the panchromaticity of galaxies

Astrophysics and Space Science 281:1-2 (2002) 505-508

Abstract:

This contribution describes results obtained with the GALICS model (for Galaxies In Cosmological Simulations), which is a hybrid model for hierarchical galaxy formation studies, combining the outputs of large cosmological N-body simulations with simple, semi-analytic recipes to describe the fate of the baryons within dark matter halos. Designed to predict the overall statistical properties of galaxies, with special emphasis on the panchromatic spectral energy distribution emitted by galaxies in the UV/optical and IR/submm wavelength ranges, such an approach can be used to predict the galaxy luminosity function evolution from the ultraviolet to far infrared, along with individual galaxies star formation histories.