Beecroft Institute for Particle Astrophysics and Cosmology

GalICS V : Low and high order clustering in mock SDSS's

(2006)

Authors:

J Blaizot, I Szapudi, S Colombi, T Budavari, FR Bouchet, JEG Devriendt, B Guiderdoni, J Pan, A Szalay

Determining the cosmic ray ionization rate in dynamically evolving clouds

Astronomy and Astrophysics 448:2 (2006) 425-432

Authors:

CJ Lintott, JMC Rawlings

Abstract:

The ionization fraction is an important factor in determining the chemical and physical evolution of star forming regions. In the dense, dark starless cores of such objects, the ionization rate is dominated by cosmic rays; it is therefore possible to use simple analytic estimators, based on the relative abundances of different molecular tracers, to determine the cosmic ray ionization rate. This paper uses a simple model to investigate the accuracy of two well-known estimators in dynamically evolving molecular clouds. It is found that, although the analytical formulae based on the abundances of H 3+, H2, CO, O, H2O and HCO + give a reasonably accurate measure of the cosmic ray ionization rate in static, quiescent clouds, significant discrepancies occur in rapidly evolving (collapsing) clouds. As recent evidence suggests that molecular clouds may consist of complex, dynamically evolving sub-structure, we conclude that simple abundance ratios do not provide reliable estimates of the cosmic ray ionization rate in dynamically active regions. © ESO 2006.

Large scale structure in Bekenstein's theory of relativistic modified Newtonian dynamics.

Phys Rev Lett 96:1 (2006) 011301

Authors:

C Skordis, DF Mota, PG Ferreira, C Boehm

Abstract:

A relativistic theory of modified gravity has been recently proposed by Bekenstein. The tensor field in Einstein's theory of gravity is replaced by a scalar, a vector, and a tensor field which interact in such a way to give modified Newtonian dynamics (MOND) in the weak-field nonrelativistic limit. We study the evolution of the Universe in such a theory, identifying its key properties and comparing it with the standard cosmology obtained in Einstein gravity. The evolution of the scalar field is akin to that of tracker quintessence fields. We expand the theory to linear order to find the evolution of perturbations on large scales. The impact on galaxy distributions and the cosmic microwave background is calculated in detail. We show that it may be possible to reproduce observations of the cosmic microwave background and galaxy distributions with Bekenstein's theory of MOND.

Modelling the Galaxy Bimodality: Shutdown Above a Critical Halo Mass

(2006)

Authors:

A Cattaneo, A Dekel, J Devriendt, B Guiderdoni, J Blaizot

UV-optical colours as probes of early-type galaxy evolution

ArXiv astro-ph/0601029 (2006)

Authors:

S Kaviraj, K Schawinski, JEG Devriendt, I Ferreras, S Khochfar, S-J Yoon, SK Yi, J-M Deharveng, A Boselli, T Barlow, T Conrow, K Forster, P Friedman, DC Martin, P Morrissey, S Neff, D Schiminovich, M Seibert, T Small, T Wyder, L Bianchi, J Donas, T Heckman, Y-W Lee, B Madore, B Milliard, RM Rich, A Szalay

Abstract:

We have studied ~2100 early-type galaxies in the SDSS DR3 which have been detected by the GALEX Medium Imaging Survey (MIS), in the redshift range 0 < z < 0.11. Combining GALEX UV photometry with corollary optical data from the SDSS, we find that, at a 95 percent confidence level, at least ~30 percent of galaxies in this sample have UV to optical colours consistent with some recent star formation within the last Gyr. In particular, galaxies with a NUV - r colour less than 5.5 are very likely to have experienced such recent star formation, taking into account the possibility of a contribution to NUV flux from the UV upturn phenomenon. We find quantitative agreement between the observations and the predictions of a semi-analytical LCDM hierarchical merger model and deduce that early-type galaxies in the redshift range 0 < z < 0.11 have ~1 to 3 percent of their stellar mass in stars less than 1 Gyr old. The average age of this recently formed population is ~300 to 500 Myrs. We also find that monolithically evolving galaxies, where recent star formation can be driven solely by recycled gas from stellar mass loss, cannot exhibit the blue colours (NUV - r < 5.5) seen in a significant fraction (~30 percent) of our observed sample.