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Forming Galaxies Captured In The Young Universe By Hubble, VLT & Spitzer

Date:
April 23, 2007
Source:
Royal Astronomical Society
Summary:
Astronomers have discovered that the majority of the most distant galaxies so far identified are very young, undergoing their first extremely vigorous bursts of star formation.

Hubble Space Telescope optical images centered on four of the very distant galaxies in the study. Each image has a diameter of 6 arc seconds, or 1/300 the diameter of the full moon. At the huge distances involved to these galaxies, even the world's best telescope sees these objects as barely resolved "blobs" of light. The next generation ground and spaced-based telescopes will enable us to study these most distant galaxies in far greater detail, allowing astronomers to test predictions made from the results of the current study. Although the galaxies look yellowy-orange to our eyes, the light that we detect from them in these images were originally emitted in the far ultra-violet, at much shorter wavelengths. Over the billions of years it took for the light to reach us, the Universe expanded considerably, stretching the wavelength of the light. So what was originally emitted in the ultra-violet is detected by us in the red part of the optical regime that our eyes are sensitive to.
Credit: RAS/PPARC

A team of UK, French and German astronomers have discovered that the majority of the most distant galaxies so far identified are very young, undergoing their first extremely vigorous bursts of star formation. This discovery allows the astronomers to study the first important stages in the formation of the kind of galaxies we see in the Universe today. One of the scientists involved in the study, Dr Malcolm Bremer of the University of Bristol presented the team’s findings at the Royal Astronomical Society National Astronomy Meeting in Preston.

According to Dr Bremer: "Our new systematic survey shows that the majority of these distant galaxies are undergoing their first significant episodes of star formation at the epoch at which we observe them, thereby allowing us to directly observe this key moment in galaxy evolution."

The light that we see from these galaxies was emitted when the Universe was about 10 per cent of its present age (or just over a billion years old). They are forming stars at a very high rate (up to a hundred times the rate at which our own Galaxy, the Milky Way, is currently forming stars). The duration of these intense star formation events is short astronomically-speaking, comparable to the time it would take for a star to cross one of these galaxies (a few tens of millions of years). This indicates that we are seeing in these galaxies one of their first major star formation events, and are therefore watching the earliest stages of galaxy formation in the young Universe.

The team of astronomers discovered that the galaxies have a very high density of stars, the like of which is seen in only the centres of the most massive galaxies today. The stars that are forming in these young galaxies will end up in the biggest galaxies seen in the Universe today. Previous analysis of the light emitted by massive galaxies close to our own indirectly suggested that most stars in these galaxies formed just 1-2 billion years after the Big Bang. The new results give direct evidence for this, the observed galaxies are captured in the first major phases of their star formation. The lead author of the study, Dr Aprajita Verma of Oxford University noted: "It is exciting to think that by analysing the light from these very distant galaxies we can directly study the first star formation episodes that happened so soon after the Universe began".

The data allowed the astronomers to determine further characteristics for the galaxies. In particular they were able to compare these very distant sources to star forming galaxies seen when the Universe was a billion years older. They found that the later galaxies were physically larger, more massive, more chemically enriched by heavier elements (created through nuclear fusion in the earliest stars) and had endured far longer episodes of star formation. The scientists are seeing direct evidence for the evolution of galaxies as the Universe ages. Team member Dr Matt Lehnert comments: "The differences between the two samples are exactly what is expected. As time goes on, galaxies grow from mergers of smaller systems and they can sustain longer bursts of star formation. These create multiple generations of stars that go on to enrich the galaxy with more and more elements heavier than hydrogen and helium".

Robert Kennicutt, the Plumian Professor of Astronomy and Experimental Philosophy at the University of Cambridge, commenting on this work said, “These results suggest that we are already able to observe some of the first building blocks of present-day galaxies. Furthermore, these results predict that many of the galaxies observed should have relatively primitive chemical compositions. In the coming decade it should be possible to test this prediction, by measuring the heavy element content of these galaxies with the next generation giant ground-based telescopes such as ESO’s Extremely Large Telescope and with the successor to the Hubble Space Telescope, the James Webb Space Telescope”.

How did the astronomers carry out this work?

In 2003 Lehnert and Bremer showed that samples of very distant galaxies could be reliably identified in a set of deep optical images by their unique colours. While the technique relied upon the galaxies containing some young stars, it could not determine how long star formation had continued in the galaxies. In the current work, the team led by Aprajita Verma observed similar objects in infrared light, enabling them to better characterise the galaxies’ emission and thereby determining for how long star formation had been taking place.

The astronomers combined pre-existing data of an area of sky from several telescopes in order to identify many distant galaxies and then to determine the mix of stars within those galaxies. They used Hubble Space Telescope imaging to explore their properties in visible light, together with the ground-based ESO VLT (in Chile) and the orbiting NASA Spitzer telescope to determine their brightnesses in the infra red. Because these galaxies are so far away, their light is dramatically reddened by the expansion of the Universe that has occurred between the time the light was emitted by the galaxies and when it is received by us.

By determining the relative brightness of each galaxy in visible and infrared light, the team of astronomers were able to determine the ages of the stars within the galaxies. In common with several more limited studies, they found that a few of the most distant galaxies have moderately old stellar populations indicating that they had been forming stars for several hundred million years. However, the comprehensive nature of this study showed that the majority of the galaxies had been forming a significant amount of stars for a far shorter period. In essence the galaxies were being seen in their first flush of youth.

What happens to the galaxies subsequently is an ongoing topic of study. It is not clear whether these objects cease forming stars on a timescale of a few tens of millions of years or whether they continue but become enshrouded in dust produced as part of the ongoing star formation process and are effectively rendered invisible to the telescopes used for these studies. Only further observations will make this clear.

Full details of the study will soon appear as a paper in the journal Monthly Notices of the Royal Astronomical Society.


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The above story is based on materials provided by Royal Astronomical Society. Note: Materials may be edited for content and length.


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