"Einstein Telescope": Search for Dark Matter and the Future of the Universe
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October 14, 2009

"Einstein Telescope": Search for Dark Matter and the Future of the Universe


Einstein_ring_2“Such stunning cosmic coincidences reveal so much about nature.”

~ Leonidas Moustakas, Jet Propulsion Laboratory

The Hubble Space Telescope has revealed a never-before-seen optical alignment in space: a pair of glowing rings, one nestled inside the other like a bull's-eye pattern. The double-ring pattern is caused by the complex bending of light from two distant galaxies strung directly behind a foreground massive galaxy, like three beads on a string. The foreground galaxy is 3 billion light-years away, the inner ring and outer ring are comprised of multiple images of two galaxies at a distance of 6 and approximately 11 billion light-years.

The discovery was made by an international team of astronomers led by Raphael Gavazzi and Tommaso Treu of the University of Californi, Santa Barbara. Treu says the odds of seeing such a special alignment are so small that they “hit the jackpot” with this discovery. “When I first saw it I said ‘wow, this is insane!’ I could not believe it!”

But this sight is more than just an incredible novelty. It’s also a very rare phenomenon that can offer insights into dark matter, dark energy, the nature of distant galaxies, and the curvature of the Universe itself. The discovery is part of the ongoing Sloan Lens Advanced Camera for Surveys (SLACS) program.

The phenomenon, called gravitational lensing, occurs when a massive galaxy in the foreground bends the light rays from a distant galaxy behind it, in much the same way as a magnifying glass would. When both galaxies are perfectly lined up, the light forms a circle, called an “Einstein ring”, around the foreground galaxy. If another more distant galaxy lies precisely on the same sightline, a second, larger ring will appear.

“Such stunning cosmic coincidences reveal so much about nature. Dark matter is not hidden to lensing,” added Leonidas Moustakas of the Jet Propulsion Laboratory in Pasaden, California, USA. “The elegance of this lens is trumped only by the secrets of nature that it reveals.”

The dark matter distribution in the foreground galaxies that is warping space to create the Einstein's telescope, the gravitational lens, can be accurately mapped. In addition, the geometry of the two Einstein rings allowed the team to measure the mass of the middle galaxy precisely to be a value of 1 billion solar masses. The team reports that this is the first measurement of the mass of a dwarf galaxy at cosmological distance.

A sample of several dozen double rings such as this one would offer a purely independent measure of the curvature of space by gravity. This would help in determining what the majority of the Universe is made of, and the properties of dark energy.

Original observations made in 1970 revealed that gravitational motions of gas clouds in the Andromeda galaxy were occurring at speeds far greater than the entire observed mass of that galaxy could account for. Similar problems detected in the 1930's involving motions of entire galaxies had long been disregarded. Later observations confirmed that so-called "ordinary matter" is insufficient to account for observed gravitational effects in the cosmos. Thus the universe must contain huge amounts of "dark matter," that we cannot observe and the composition of which we do not know. 

In 1998 reports of observations of distant supernovae revealed that the expansion of the universe was not slowing, as would be expected from long-term effects of gravity, but was instead accelerating. Something was overcoming the gravitational power of all of the matter in the universe. The acceleration, moreover, has not been present from the Big Bang on. For billions of years the speed of expansion slowed. Then, about 5 billion years ago, acceleration began. Obviously energy--a lot of it--- was required to explain these phenomena. This is "dark energy." We cannot detect it and currently know almost nothing about it. 

Today scientists believe that 5% of the universe consists of "ordinary" [observable] matter, 23% of "dark" matter and 72% of "dark energy."

Posted by Rebecca Sato with Casey Kazan.

Links:

http://imgsrc.hubblesite.org/hu/db/2005/32/images/a/formats/print.jpg
http://www.ia.ucsb.edu/pa/display.aspx?pkey=1708

Comments

I tried paying my landlord with "dark money" but he said he couldn't perceive it, so no go on that idea.

I find dark matter/energy a concept difficult to accept.

replace it for ether and it all makes scence

@knee said "replace it for ether and it all makes scence"

"Ether"? What is this? A 1930's E.E. "Doc" Smith space opera adventure? [roflol]

The heretics of dark matter are good scientists who can explain that any mass can create the lens. There is an incredible degree of faith about dark matter.

Cosmologists use 'dark matter' to scientific advantage whereas all the other 10 types of people who can notunderstand binary numbers (i.e those who don't) get in the way by saying they don't. you need a rih and vibrant inner world that you can tap into to come to grips with some of the most interesting propositions ever made.


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