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Post Info TOPIC: Galaxy evolution


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RE: Galaxy evolution
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Galaxies are in no hurry to grow up

Imagine what would happen if it took your child 8 billion years to mature. After examining hundreds of galaxies seen by the Keck telescopes and NASAs Hubble Space Telescope, a team of astronomers has discovered a fascinating pattern of change that goes back 8 billion years.
Interestingly, researchers say the distant blue galaxies they analysed are slowly transforming into rotating disk galaxies like our own Milky Way. Not until recently have scientists understood how a galaxys organisation and internal motion changes over time.

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Astronomers Uncover a Surprising Trend In Galaxy Evolution

A comprehensive study of hundreds of galaxies observed by the Keck telescopes in Hawaii and NASA's Hubble Space Telescope has revealed an unexpected pattern of change that extends back 8 billion years, or more than half the age of the universe.
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Title: Evolution along the sequence of S0 Hubble types induced by dry minor mergers. I - Global bulge-to-disk structural relations
Authors: M. Carmen Eliche-Moral (1), A. Cesar Gonzalez-Garcia (2,3), J. Alfonso L. Aguerri (2,3), Jesus Gallego (1), Jaime Zamorano (1), Marc Balcells (4,2,3), Mercedes Prieto (2,3) ((1) Universidad Complutense de Madrid, Spain (2) Instituto de Astrofisica de Canarias, (3) Universidad de La Laguna, (4) Isaac Newton Group of Telescopes)

Recent studies have argued that galaxy mergers are not important drivers for the evolution of S0's, on the basis that mergers cannot preserve the coupling between the bulge and disk scale-lengths observed in these galaxies and the lack of correlation of their ratio with the S0 Hubble type. We investigate whether the remnants resulting from collision-less N-body simulations of intermediate and minor mergers onto S0 galaxies evolve fulfilling global structural relations observed between the bulges and disks of these galaxies. Different initial bulge-to-disk ratios of the primary S0 have been considered, as well as different satellite densities, mass ratios, and orbits of the encounter. We have analysed the final morphology of the remnants in images simulating the typical observing conditions of S0 surveys. We derive bulge+disk decompositions of the final remnants to compare their global bulge-to-disk structure with observations. We show that all remnants present undisturbed S0 morphologies according to the prescriptions of specialised surveys. The dry intermediate and minor mergers induce noticeable bulge growth (S0c --> S0b and S0b --> S0a), but affect negligibly to the bulge and disk scale-lengths. Therefore, if a coupling between these two components exists prior to the merger, the encounter does not break this coupling. This fact provides a simple explanation for the lack of correlation between the ratio of bulge and disk scale-lengths and the S0 Hubble type reported by observations. These models prove that dry intermediate and minor mergers can induce global structural evolution within the sequence of S0 Hubble types compatible with observations, meaning that these processes should not be discarded from the evolutionary scenarios of S0's just on the basis of the strong coupling observed between the bulge and disk scale-lengths in these galaxies

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Galaxy diversification
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Title: A six-parameter space to describe galaxy diversification
Authors: Didier Fraix-Burnet (IPAG), Tanuka Chattopadhyay, Asis Kumar Chattopadhyay, Emmanuel Davoust (IRAP), Marc Thuillard

Galaxy diversification proceeds by transforming events like accretion, interaction or mergers. These explain the formation and evolution of galaxies that can now be described with many observables. Multivariate analyses are the obvious tools to tackle the datasets and understand the differences between different kinds of objects. However, depending on the method used, redundancies, incompatibilities or subjective choices of the parameters can void the usefulness of such analyses. The behaviour of the available parameters should be analysed before an objective reduction of dimensionality and subsequent clustering analyses can be undertaken, especially in an evolutionary context. We study a sample of 424 early-type galaxies described by 25 parameters, ten of which are Lick indices, to identify the most structuring parameters and determine an evolutionary classification of these objects. Four independent statistical methods are used to investigate the discriminant properties of the observables and the partitioning of the 424 galaxies: Principal Component Analysis, K-means cluster analysis, Minimum Contradiction Analysis and Cladistics.

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  Recycling galaxies caught in the act
 
When astronomers add up all the gas and dust contained in ordinary galaxies like our own Milky Way, they stumble on a puzzle: There is not nearly enough matter for stars to be born at the rates that are observed. Part of the solution might be a recycling of matter on gigantic scales - veritable galactic fountains of matter flowing out and then back into galaxies over multi-billion-year timescales.
Now, a team of astronomers led by Kate Rubin of the Max Planck Institute for Astronomy in Germany has used the W. M. Keck Observatory to find evidence of just such fountains in distant spiral galaxies.

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Keck, Magellan & Hubble Telescopes Find Galactic Recyclers

The secret of longevity is recycling, at least for galaxies, say astronomers who have used a trio of the world's best telescopes to study the uncharted space around vibrant star-birthing galaxies and their not-so-vibrant siblings.
Galaxies learned to "go green" early in the history of the universe, continuously recycling immense volumes of hydrogen gas and heavy elements to build successive generations of stars stretching over billions of years. This recycling keeps galaxies from emptying their "fuel tanks" and therefore stretches out their star-forming epoch to over 10 billion years.
However, galaxies that ignite a rapid firestorm of star birth can blow away their remaining fuel, essentially turning off further star birth activity. This conclusion is supported by a series of observations by the 10-meter Keck I telescope, the Magellan Telescope and the Hubble Space Telescope.

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Herschel reveals how most stars formed in the Universe

Do galaxies form their stars through violent and tumultuous merging events or rather via more steady and gentle processes? Scrutinising thousands of galaxies across the past 11 billion years of cosmic history with ESA's Herschel Space Observatory, astronomers have, for the first time, been able to answer this long-standing question. Contrary to previous belief, the new data reveal that most of the stars ever formed in the history of the Universe have done so quietly.
Today galaxies form stars at a rather leisurely pace, or at least this is what astronomers infer from observing galaxies in the present-day Universe. On average, the Milky Way produces only a handful of new Sun-like stars every year. Occasional dynamical interactions between massive galaxies, or mergers, may trigger intense bursts of star formation and cause their stellar mass to increase much more swiftly. However, such episodes are known to be extremely rare in the current cosmic epoch.

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Herschel paints new story of galaxy evolution
 
ESA's Herschel infrared space observatory has discovered that galaxies do not need to collide with each other to drive vigorous star birth. The finding overturns this long-held assumption and paints a more stately picture of how galaxies evolve.
The conclusion is based on Herschel's observations of two patches of sky, each about a third of the size of the full Moon.

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