Book contents
- Frontmatter
- Contents
- Preface
- List of Participants
- I INTRODUCTION
- II THE INNER PARSEC
- III THE CIRCUMNUCLEAR REGION
- IV GAS DYNAMICS AND STAR FORMATION IN BARRED AND NORMAL GALAXIES
- Star Formation in Barred Galaxies (Invited paper)
- Gas Dynamics and Star Formation in and Around Bars (Invited paper)
- Nuclear Starbursts in Barred Spiral Galaxies
- Molecular Inflows towards Galactic Nuclei
- Bar-Driven and Interaction-Driven Starbursts in SO/Sa Galaxies
- Gas Inflow due to Perpendicular Orbits in Barred Potentials
- Neutral Gas in the Barred Starburst Galaxy Maffei 2 (Poster paper)
- The Abundance Gradients in Barred Galaxies: the Role of Radial Flows (Poster paper)
- Bar Induced Non–Circular Molecular Gas Motions in M82 (Poster paper)
- Star Complexes and Evolution of Disk Galaxies (Poster paper)
- Interstellar Gas Flows in the Gravitational Potential Well of Density Waves (Poster paper)
- Massive Gas Rings in the Nuclei of Barred Spiral Galaxies (Poster paper)
- Pattern Speeds and Time Evolution in Ringed Galaxies from Observational and Simulational Databases (Poster paper)
- Large Scale Gravitational Instability and Galactic Viscosity (Poster paper)
- V NUCLEAR GAS AND LARGE-SCALE PROPERTIES OF AGN AND STARBURST HOSTS
- VI HOST GALAXY-AGN-NUCLEAR STARBURST CONNECTION
- VII GALAXY INTERACTIONS AND INDUCED ACTIVITY
- VIII GAS DYNAMICS IN ELLIPTICALS
- IX AGN AND STARBURST HOSTS AT LARGE REDSHIFTS
- X CONFERENCE SUMMARY
- Subject Index
- Object Index
- Author Index
Gas Dynamics and Star Formation in and Around Bars (Invited paper)
Published online by Cambridge University Press: 05 May 2010
- Frontmatter
- Contents
- Preface
- List of Participants
- I INTRODUCTION
- II THE INNER PARSEC
- III THE CIRCUMNUCLEAR REGION
- IV GAS DYNAMICS AND STAR FORMATION IN BARRED AND NORMAL GALAXIES
- Star Formation in Barred Galaxies (Invited paper)
- Gas Dynamics and Star Formation in and Around Bars (Invited paper)
- Nuclear Starbursts in Barred Spiral Galaxies
- Molecular Inflows towards Galactic Nuclei
- Bar-Driven and Interaction-Driven Starbursts in SO/Sa Galaxies
- Gas Inflow due to Perpendicular Orbits in Barred Potentials
- Neutral Gas in the Barred Starburst Galaxy Maffei 2 (Poster paper)
- The Abundance Gradients in Barred Galaxies: the Role of Radial Flows (Poster paper)
- Bar Induced Non–Circular Molecular Gas Motions in M82 (Poster paper)
- Star Complexes and Evolution of Disk Galaxies (Poster paper)
- Interstellar Gas Flows in the Gravitational Potential Well of Density Waves (Poster paper)
- Massive Gas Rings in the Nuclei of Barred Spiral Galaxies (Poster paper)
- Pattern Speeds and Time Evolution in Ringed Galaxies from Observational and Simulational Databases (Poster paper)
- Large Scale Gravitational Instability and Galactic Viscosity (Poster paper)
- V NUCLEAR GAS AND LARGE-SCALE PROPERTIES OF AGN AND STARBURST HOSTS
- VI HOST GALAXY-AGN-NUCLEAR STARBURST CONNECTION
- VII GALAXY INTERACTIONS AND INDUCED ACTIVITY
- VIII GAS DYNAMICS IN ELLIPTICALS
- IX AGN AND STARBURST HOSTS AT LARGE REDSHIFTS
- X CONFERENCE SUMMARY
- Subject Index
- Object Index
- Author Index
Summary
ABSTRACT
In this paper I briefly review the flow of gas in and around the bars of early type, strongly barred galaxies. I discuss the formation and location of the shocks near the leading edges of bars and the parameters that influence them. Straight shock loci can also be loci of such high shear that no stars can form there, although they correspond to important density enhancements. The flows found in barred galaxies entail a considerable amount of inflow. If inner Lindblad resonances are absent, or if one or more secondary bars exist within the primary one, then this inflowing gas can come very near to the galactic center.
INTRODUCTION
Modelling the interstellar medium in order to follow the gas flow in and around bars is not a straightforward matter. Two families of approaches have been developed so far for that purpose:
Codes treating the cool dense clouds as ballistic particles with a finite cross section, often called “sticky particle” codes. Exactly when two such clouds are considered to collide and what happens in such a case varies from one code to the other (Taff and Savedoff 1972; Larson 1978; Schwarz 1979).
Codes considering a collection of these clouds as a fluid with a sound speed of the order of the velocity dispersion of the clouds, i.e. of the order of 5 to 10 km sec-1 (cf. Cowie 1980). This group of codes is composed of at least three subgroups:
i) Difference schemes, in which several different ways of solving the hydrodynamic equations are used (see e.g. Prendergast 1983 and references therein).
ii) the beam scheme (Sanders and Prendergast 1974).
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- Mass-Transfer Induced Activity in Galaxies , pp. 143 - 154Publisher: Cambridge University PressPrint publication year: 1994
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