Book contents
- Frontmatter
- Contents
- Preface
- Conference participants
- Conference photograph / poster
- 1 Physics of H2 and HD
- 2 Formation - Destruction
- 3 Observations and Models
- 4 Extragalactic and Cosmology
- The Role of H2 Molecules in Cosmological Structure Formation
- The Role of H2 Molecules in Primordial Star Formation
- Evolution of Primordial H2 for Different Cosmological Models
- Dynamics of H2 Cool Fronts in the Primordial Gas
- Is Reionization Regulated by H2 in the Early Universe?
- H2 in Galaxies
- Transformation of Galaxies within the Hubble Sequence
- Extragalactic H2 and its Variable Relation to CO
- The Galactic Dark Matter Halo: Is it H2?
- Observations of H2 in Quasar Absorbers
- H2 Emission as a Diagnostic of Physical Processes in Starforming Galaxies
- 5 Outlook
- Author index
Transformation of Galaxies within the Hubble Sequence
from 4 - Extragalactic and Cosmology
Published online by Cambridge University Press: 04 August 2010
- Frontmatter
- Contents
- Preface
- Conference participants
- Conference photograph / poster
- 1 Physics of H2 and HD
- 2 Formation - Destruction
- 3 Observations and Models
- 4 Extragalactic and Cosmology
- The Role of H2 Molecules in Cosmological Structure Formation
- The Role of H2 Molecules in Primordial Star Formation
- Evolution of Primordial H2 for Different Cosmological Models
- Dynamics of H2 Cool Fronts in the Primordial Gas
- Is Reionization Regulated by H2 in the Early Universe?
- H2 in Galaxies
- Transformation of Galaxies within the Hubble Sequence
- Extragalactic H2 and its Variable Relation to CO
- The Galactic Dark Matter Halo: Is it H2?
- Observations of H2 in Quasar Absorbers
- H2 Emission as a Diagnostic of Physical Processes in Starforming Galaxies
- 5 Outlook
- Author index
Summary
Currently there are three quite different views about galaxy evolution, each one improving the previous state of knowledge:
(1) The older one (“ELS”) in which galaxies form by collapse early, quickly, and synchronously (during the “galaxy formation epoch”), ending the dynamically active period; subsequent galaxy evolution is merely a matter of stellar formation processes in a rigid potential.
(2) An alternative one (“SZ”) in which disks are viewed as forming inside out over an extended period of time. Galaxy evolution occurs without important internal dynamical instabilities.
(3) The slowly emerging picture, after 40 years of N-body simulations and the obvious evidences from recent high-z observations: galaxies evolve both dynamically and chemically over most of the Hubble time in a widely asynchronous way at different speeds, depending on the environment. The Hubble sequence, from late to early types, appears to represent a broad description of the general aging process.
Thus galaxies appear now as evolving structures over typical time-scales of order of 1 Gyr. A fundamental aspect of the micro-physics in galaxies is star formation and gas processes in which the H2 molecule must play a key role: indeed interstellar gas must first form H2 before being able to form stars, so star forming regions do trace molecules, although CO might not have been detected.
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- Chapter
- Information
- Molecular Hydrogen in Space , pp. 285 - 292Publisher: Cambridge University PressPrint publication year: 2000