Beecroft Institute for Particle Astrophysics and Cosmology

Formation of structure in molecular clouds: A case study

Astrophysical Journal 633:2 II (2005)

Authors:

F Heitsch, A Burkert, LW Hartmann, AD Slyz, JEG Devriendt

Abstract:

Molecular clouds (MCs) are highly structured and turbulent. Colliding gas streams of atomic hydrogen have been suggested as a possible source of MCs, imprinting the filamentary structure as a consequence of dynamical and thermal instabilities. We present a two-dimensional numerical analysis of MC formation via converging H I flows. Even with modest flow speeds and completely uniform inflows, nonlinear density perturbations arise as possible precursors of MCs. Thus, we suggest that MCs are inevitably formed with substantial structure, e.g., strong density and velocity fluctuations, which provide the initial conditions for subsequent gravitational collapse and star formation in a variety of Galactic and extragalactic environments. © 2005. The American Astronomical Society. All rights reserved.

Formation of structure in molecular clouds: A case study

ASTROPHYSICAL JOURNAL 633:2 (2005) L113-L116

Authors:

F Heitsch, A Burkert, LW Hartmann, AD Slyz, JEG Devriendt

Determining the cosmic ray ionization rate in dynamically evolving clouds

ArXiv astro-ph/0511064 (2005)

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 H3+,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.

Searching for isocurvature perturbations

NUCL PHYS B-PROC SUP 148 (2005) 7-15

Authors:

M Bucher, J Dunkley, K Moodley, P Ferreira, C Skordis

Abstract:

We offer a pedagogical introduction to isocurvature cosmological perturbations and their detection or constraint using recent cosmic microwave background anisotropy and large-scale structure data. The status of the constraints imposed by the first year WMAP data is presented.

Implications of the Cosmic Background Imager Polarization Data

(2005)

Authors:

JL Sievers, C Achermann, JR Bond, L Bronfman, R Bustos, CR Contaldi, C Dickinson, PG Ferreira, ME Jones, AM Lewis, BS Mason, J May, ST Myers, S Padin, TJ Pearson, M Pospieszalski, ACS Readhead, R Reeves, AC Taylor, S Torres