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Posted on 06/04/2005 9:11:17 PM PDT by nickcarraway
The Virgo consortium, an international group of astrophysicists from the UK, Germany, Japan, Canada and the USA has today (June 2nd) released first results from the largest and most realistic simulation ever of the growth of cosmic structure and the formation of galaxies and quasars. In a paper published in Nature, the Virgo Consortium shows how comparing such simulated data to large observational surveys can reveal the physical processes underlying the build-up of real galaxies and black holes.
The "Millennium Simulation" employed more than 10 billion particles of matter to trace the evolution of the matter distribution in a cubic region of the Universe over 2 billion light-years on a side. It kept the principal supercomputer at the Max Planck Society's Supercomputing Centre in Garching, Germany occupied for more than a month. By applying sophisticated modelling techniques to the 25 Terabytes (25 million Megabytes) of stored output, Virgo scientists are able to recreate evolutionary histories for the approximately 20 million galaxies which populate this enormous volume and for the supermassive black holes occasionally seen as quasars at their hearts.
Telescopes sensitive to microwaves have been able to image the Universe directly when it was only 400,000 years old. The only structure at that time was weak ripples in an otherwise uniform sea of matter and radiation. Gravitationally driven evolution later turned these ripples into the enormously rich structure we see today. It is this growth which the Millennium Simulation is designed to follow, with the twin goals of checking that this new paradigm for cosmic evolution is indeed consistent with what we see, and of exploring the complex physics which gave rise to galaxies and their central black holes.
Recent advances in cosmology demonstrate that about 70 percent of our Universe currently consists of Dark Energy, a mysterious force field which is causing it to expand ever more rapidly. About one quarter apparently consists of Cold Dark Matter, a new kind of elementary particle not yet directly detected on Earth. Only about 5 percent is made out of the ordinary atomic matter with which we are familiar, most of that consisting of hydrogen and helium. All these components are treated in the Millennium Simulation.
In their Nature article, the Virgo scientists use the Millennium Simulation to study the early growth of black holes. The Sloan Digital Sky Survey (SDSS) has discovered a number of very distant and very bright quasars which appear to host black holes at least a billion times more massive than the Sun at a time when the Universe was less than a tenth its present age.
"Many astronomers thought this impossible to reconcile with the gradual growth of structure predicted by the standard picture", says Dr Volker Springel (Max Planck Institute for Astrophysics, Garching) the leader of the Millennium project and the first author of the article, "Yet, when we tried out our galaxy and quasar formation modelling we found that a few massive black holes do form early enough to account for these very rare SDSS quasars. Their galaxy hosts first appear in the Millennium data when the Universe is only a few hundred million years old, and by the present day they have become the most massive galaxies at the centres of the biggest galaxy clusters."
For Prof Carlos Frenk (Institute for Computational Cosmology, University of Durham) the head of Virgo in the UK, the most interesting aspect of the preliminary results is the fact that the Millennium Simulation demonstrates for the first time that the characteristic patterns imprinted on the matter distribution at early epochs and visible directly in the microwave maps, should still be present and should be detectable in the observed distribution of galaxies. "If we can measure the baryon wiggles sufficiently well", says Prof Frenk, "then they will provide us with a standard measuring rod to characterise the geometry and expansion history of the universe and so to learn about the nature of the Dark Energy."
"These simulations produce staggering images and represent a significant milestone in our understanding of how the early Universe took shape." said PPARC's Chief Executive, Prof Richard Wade. "The Millennium Simulation is a brilliant example of the interaction between theory and experiment in astronomy as the latest observations of astronomical objects can be used to test the predictions of theoretical models of the Universe's history."
The most interesting and far-reaching applications of the Millennium Simulation are still to come according to Prof Simon White (Max Planck Institute for Astrophysics) who heads Virgo efforts in Germany. "New observational campaigns are providing us with information of unprecedented precision about the properties of galaxies, black holes and the large-scale structure of our Universe," he notes. "Our ability to predict the consequences of our theories must reach a matching level of precision if we are to use these surveys effectively to learn about the origin and nature of our world. The Millennium Simulation is a unique tool for this. Our biggest challenge now is to make its power available to astronomers everywhere so that they can insert their own galaxy and quasar formation modelling in order to interpret their own observational surveys." The Virgo Consortium
The Virgo Consortium is an international grouping of scientists carrying out supercomputer simulations of the formation of galaxies, galaxy clusters, large-scale structure, and of the evolution of the intergalactic medium. Although most of the members are based in Britain and at the MPA in Germany, there are important nodes in Japan, Canada and the United States. The primary platforms used by the consortium are the IBM supercomputer at the Computing Centre of the Max Planck Society in Garching and the Sun Microsystems "Cosmology Machine'' at the Institute for Computational Cosmology of Durham University.
Further information about Virgo can be found at http://www.virgo.dur.ac.uk/
It's a 1:1 scale model, and very hard to store.
LOL
Steven Wright had a one-liner like that.
"I have a map of the United States, actual size. It says 'Scale: 1 mile = 1 mile.' I spent last summer folding it."
It's a small world, but I wouldn't want to paint it. S. Wright
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wen eye woke up thosmoning an eye was asittin there doing my mornin business, eye thunk o this.
by da time da cafffineen had kicked in. eye dun forgot my revelation.
couple o years ago eye had de same revovation bout cold fusion.
dang !!!
They tell us no Creator, just a lot of creation. Is that logical Spock?
...pictures?...
Will check this out. I love space stuff, and wish there were some live internet radio astronomy show to listen to. Yes, I am that old fashioned brought-up-on-radio sort who likes to listen to such talk LIVE--don't ask me why, but it makes it more interesting... I like checking out live cameras around the globe when I get the chance--there's a site I can't recall off-hand that shows various points around the world in real-time. Fascinating stuff. I am rambling...
Just remember that you're standing on a planet that's evolving
And revolving at nine hundred miles an hour,
That's orbiting at nineteen miles a second, so it's reckoned,
A sun that is the source of all our power.
The sun and you and me and all the stars that we can see
Are moving at a million miles a day
In an outer spiral arm, at forty thousand miles an hour,
Of the galaxy we call the 'Milky Way'.
Our galaxy itself contains a hundred billion stars.
It's a hundred thousand light years side to side.
It bulges in the middle, sixteen thousand light years thick,
But out by us, it's just three thousand light years wide.
We're thirty thousand light years from galactic central point.
We go 'round every two hundred million years,
And our galaxy is only one of millions of billions
In this amazing and expanding universe.
The universe itself keeps on expanding and expanding
In all of the directions it can whizz
As fast as it can go, at the speed of light, you know,
Twelve million miles a minute, and that's the fastest speed there is.
So remember, when you're feeling very small and insecure,
How amazingly unlikely is your birth,
And pray that there's intelligent life somewhere up in space,
'Cause there's bugger all down here on Earth.
-M. Python
Can fear of Universal Warming be far behind...?
I got "Celestia" a few weeks ago.
WOW! It is beautiful!
(not Steven Wright, but it sounds like him.)
Biggest ever cosmos simulation ~~ supercomputers used to re-create how the Universe evolved
Supercomputer simulations explain the formation of galaxies and quasars in the universe
In the beginning, the Universe was created. This made a lot of people very angry and has widely been regarded as a bad move.
Was the TV at the bar set to the Oxygen channel?
...WOW!...
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