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
- V NUCLEAR GAS AND LARGE-SCALE PROPERTIES OF AGN AND STARBURST HOSTS
- VI HOST GALAXY-AGN-NUCLEAR STARBURST CONNECTION
- Starbursts, Quasars, and their Environments (Invited paper) 234
- Nuclear Fueling in Two-Component Star-Gas Disks (Invited paper) 251
- Radio Loud Far-Infrared Galaxies 263
- Massive Central Black Holes as Generators of Chaos and Drivers of Large-Scale Dynamics
- Self-Gravitating Gas Dynamics: Growing Monsters and Fueling Starburstsin Disk Galaxies
- Radial Inflows in Disk Galaxies: Effects of Star Formation 279
- Self-Gravitating Gas Dynamics in a Galactic Central Region
- Nuclear Inflow under the Action of Instabilities
- Mid-IR Imaging of Interacting and Non-Interacting AGNs (Poster paper)
- Imaging of MBG Starbursts: Preliminary Results (Poster paper)
- Compact Extranuclear Structures of Mkn 298 (Poster paper)
- NGC 6814: a Very Normal Looking AGN Host Galaxy (Poster paper)
- ROSAT PSPC Observations of NGC 3079 (Poster paper)
- MK 231: AGN vs. Starburst? Steps Toward a Model (Poster paper)
- Extended Starburst Activity Induced by the Central AGN: a Model for NGC 1068 (Poster paper)
- NGC 2782, NGC 4102 and NGC 6764: Evidence for Starburst-Driven Winds
- AGN Winds and Nuclear Starbursts (Poster paper)
- 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
Radial Inflows in Disk Galaxies: Effects of Star Formation 279
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
- V NUCLEAR GAS AND LARGE-SCALE PROPERTIES OF AGN AND STARBURST HOSTS
- VI HOST GALAXY-AGN-NUCLEAR STARBURST CONNECTION
- Starbursts, Quasars, and their Environments (Invited paper) 234
- Nuclear Fueling in Two-Component Star-Gas Disks (Invited paper) 251
- Radio Loud Far-Infrared Galaxies 263
- Massive Central Black Holes as Generators of Chaos and Drivers of Large-Scale Dynamics
- Self-Gravitating Gas Dynamics: Growing Monsters and Fueling Starburstsin Disk Galaxies
- Radial Inflows in Disk Galaxies: Effects of Star Formation 279
- Self-Gravitating Gas Dynamics in a Galactic Central Region
- Nuclear Inflow under the Action of Instabilities
- Mid-IR Imaging of Interacting and Non-Interacting AGNs (Poster paper)
- Imaging of MBG Starbursts: Preliminary Results (Poster paper)
- Compact Extranuclear Structures of Mkn 298 (Poster paper)
- NGC 6814: a Very Normal Looking AGN Host Galaxy (Poster paper)
- ROSAT PSPC Observations of NGC 3079 (Poster paper)
- MK 231: AGN vs. Starburst? Steps Toward a Model (Poster paper)
- Extended Starburst Activity Induced by the Central AGN: a Model for NGC 1068 (Poster paper)
- NGC 2782, NGC 4102 and NGC 6764: Evidence for Starburst-Driven Winds
- AGN Winds and Nuclear Starbursts (Poster paper)
- 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
Results of 3D numerical simulations of a two-component self-gravitating galactic disk embedded in a ‘live’ halo are presented. The pure stellar disk is chosen to be globally unstable and forms a stellar bar. A ‘seed’ black hole (BH) of 5 x 107 M⊙ with an ‘accretion’ radius of 20 pc is placed at the center. The details on the numerical method are given in Shlosman and Heller (these proceedings and references therein). Here we study the effects of star formation (SF) which is introduced when (1) the gas is Jeans unstable; and (2) the gas density exceeds ∼ 100 M⊙ pc-3. The formed massive stars account for the gas heating by means of line-driven winds and by supernovae, assuming an efficiency of kinetic-to-thermal energy conversion of a few percent. Models with and without SF are compared and only the robust features are emphasized.
We find that the SF has induced angular momentum loss by the gas and has increased the radial inflow by a factor < 3. We also find that (1) SF is concentrated at the apocenters of the gaseous circulation in the bar and in the nuclear region; (2) the nuclear starburst phase appears to be very luminous (quasar-like) and episodic; and (3) the nuclear starburst phase correlates with the catastrophic growth of the BH. Without the pre-existing BH, the gas at the center (few x 100 pc) becomes dynamically unstable and forms a gaseous bar which drives a further inflow. The gaseous bar may fission into a massive cloud binary system.
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- Mass-Transfer Induced Activity in Galaxies , pp. 279 - 283Publisher: Cambridge University PressPrint publication year: 1994
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