Beecroft Institute for Particle Astrophysics and Cosmology

The sensitivity of the seismic solar model to Newton's constant

MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY 341:3 (2003) 721-728

Authors:

IP Lopes, J Silk

The trispectrum of the cosmic microwave background on subdegree angular scales:: an analysis of the BOOMERanG data

MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY 343:1 (2003) 284-292

Authors:

G De Troia, PAR Ade, JJ Bock, JR Bond, A Boscaleri, CR Contaldi, BP Crill, P de Bernardis, PG Ferreira, M Giacometti, E Hivon, VV Hristov, M Kunz, AE Lange, S Masi, PD Mauskopf, T Montroy, P Natoli, CB Netterfield, E Pascale, F Piacentini, G Polenta, G Romeo, JE Ruhl

Dark matter within high surface brightness spiral galaxies

ArXiv astro-ph/0212290 (2002)

Authors:

Thilo Kranz, Adrianne Slyz, Hans-Walter Rix

Abstract:

We present results from a detailed dynamical analysis of five high surface brightness, late type spirals, studied with the aim to quantify the luminous-to-dark matter ratio inside their optical radii. The galaxies' stellar light distribution and gas kinematics have been observed and compared to hydrodynamic gas simulations, which predict the 2D gas dynamics arising in response to empirical gravitational potentials, which are combinations of differing stellar disk and dark halo contributions. The gravitational potential of the stellar disk was derived from near-infrared photometry, color-corrected to constant (M/L); the dark halo was modelled by an isothermal sphere with a core. Hydrodynamic gas simulations were performed for each galaxy for a sequence of five different mass fractions of the stellar disk and for a wide range of spiral pattern speeds. These two parameters mainly determine the modelled gas distribution and kinematics. The agreement between the non-axisymmetric part of the simulated and observed gas kinematics permitted us to conclude that the galaxies with the highest rotation velocities tend to possess near-maximal stellar disks. In less massive galaxies, with v_max<200 km/s, the mass of the dark halo at least equals the stellar mass within 2-3 R_disk. The simulated gas morphology provides a powerful tool to determine the dominant spiral pattern speed. The corotation radius for all galaxies was found to be constant at R_corotation ~ 3 R_disk and encloses the strong part of the stellar spiral in all cases.

Dark matter within high surface brightness spiral galaxies

(2002)

Authors:

Thilo Kranz, Adrianne Slyz, Hans-Walter Rix

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.