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
- VII GALAXY INTERACTIONS AND INDUCED ACTIVITY
- VIII GAS DYNAMICS IN ELLIPTICALS
- Cold Gas in Early–Type Galaxies (Invited paper)
- Gas Kinematics in the LINER Radio Elliptical Galaxy NGC 4278
- Environmental Induced Star Formation in Galactic Cooling Flows
- Photometry of a Complete Sample of Virgo Ellipticals (Poster paper)
- Discovery of Very Red Colors in GPS Radio Galaxies (Poster paper)
- Are All Elliptical Galaxies Active? (Poster paper)
- Habitat Segregation of Elliptical Galaxies (Poster paper)
- Nebular Properties and the Origin of the Interstellar Medium in Elliptical Galaxies (Poster paper)
- IX AGN AND STARBURST HOSTS AT LARGE REDSHIFTS
- X CONFERENCE SUMMARY
- Subject Index
- Object Index
- Author Index
Environmental Induced Star Formation in Galactic Cooling Flows
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
- VII GALAXY INTERACTIONS AND INDUCED ACTIVITY
- VIII GAS DYNAMICS IN ELLIPTICALS
- Cold Gas in Early–Type Galaxies (Invited paper)
- Gas Kinematics in the LINER Radio Elliptical Galaxy NGC 4278
- Environmental Induced Star Formation in Galactic Cooling Flows
- Photometry of a Complete Sample of Virgo Ellipticals (Poster paper)
- Discovery of Very Red Colors in GPS Radio Galaxies (Poster paper)
- Are All Elliptical Galaxies Active? (Poster paper)
- Habitat Segregation of Elliptical Galaxies (Poster paper)
- Nebular Properties and the Origin of the Interstellar Medium in Elliptical Galaxies (Poster paper)
- IX AGN AND STARBURST HOSTS AT LARGE REDSHIFTS
- X CONFERENCE SUMMARY
- Subject Index
- Object Index
- Author Index
Summary
ABSTRACT
A 2D hydrodynamic Eulerian code is applied to study the effect of induced star formation in galactic cooling flows. Our main findings are: 1) Star formation activity is induced by ram pressure when the mass loss is dominated by late type giants. 2) Star formation activity is insensitive to the environment when the mass loss is dominated by early type giants. The present calculation supports the claim that the Butcher-Oemler effect is caused by star formation activity and provides a natural explanation for its source.
INTRODUCTION
The intra-cluster gas (ICG) is a hot rarefied gas that experiences negligible cooling during a Hubble time. This fact changes as the gas flows into the inner parts of elliptical galaxies and encounters the hot inter stellar medium (ISM). The cooling time in the ISM dominated region may become 6 to 7 orders of magnitude smaller then the Hubble time (cf. Portnoy et al. 1993, hereafter PPS). Regions in which cooling times are very short are also found in the centers of many cluster of galaxies (for a review cf. Sarazin 1988 and references therein). These high density and low temperatures regions are strong sources of thermal X-ray radiation, and are known as cooling flows.
The ISM Removal Problem
In contrast to cluster cooling flows that were discovered observationally (cf. Sarazin 1988), galactic cooling flows (in normal ellipticals in contrast to CDs) were discovered numerically in simulations performed by Shaviv and Salpeter (1982, here-after ShS). The main motivation for their numerical simulation was the introduction of the cooling process of the gas into the simulations. As a consequence ShS frequently encountered a cooling instability.
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- Mass-Transfer Induced Activity in Galaxies , pp. 437 - 441Publisher: Cambridge University PressPrint publication year: 1994