- Cracks in the Universe: Physicists Search for Cosmic Strings

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The blue dot in the center shows the Earth's location within the two linked cosmic strings in this simulated image. The arrows show how the magnetic field from the two stings affected the orientation of nearby quasars. Credit: Robert Poltis, University at Buffalo

Cracks in the Universe: Physicists Search for Cosmic Strings
By Mike Lucibella
Inside Science News Service
posted: 12 October 2010
05:29 pm ET

WASHINGTON (ISNS) — Physicists are hot on the trail of one of strangest theorized structures in the universe. A team of researchers have announced what they think are the first indirect observations of ancient cosmic strings, bizarre objects thought to have contributed to the arrangement of objects throughout the universe.

First predicted back in the 1970s, cosmic strings are thought to be enormous fault lines that once existed in space. Not to be confused with the subatomic strings of string theory, cosmic strings are widely believed by astrophysicists to have formed billions of years ago, just moments after the Big Bang when the universe was still a soupy mass of extremely hot matter. As the universe cooled, defects formed between different regions of space that cooled in different ways, much like cracks forming in the ice on a frozen pond. These defects in space were the cosmic strings.

Although researchers have not yet directly observed the strings themselves, the team believes they found evidence of them hidden in ancient quasars, enormous black holes that shoot out mighty jets of light and radiation, found at the heart of many galaxies.

The presumed cosmic strings were incredibly narrow, thinner than the diameter of a proton, but so dense that a string less than a mile in length would weigh more than the Earth. As the universe expanded, so too did these strings until they either stretched across the known universe, or into enormous rings thousands of times larger than our galaxy.

"Their magnetic field sort of hitches a ride with the expansion of the universe," said Robert Poltis from the University at Buffalo in N.Y. and lead author of the paper reporting the findings.

Poltis' team analyzed the observational data of 355 quasars that reside in the far off corners of the universe. With careful scrutiny of the light emitted by these quasars, it is possible to determine the direction their jets are facing in space. The team found that 183 of them lined up to form two enormous rings that stretch across the sky in a pattern unlikely to have formed by chance. 

The team members think that the magnetic fields of the two cosmic strings affected the direction the quasars are pointing. The strings themselves should have long since dissipated by emitting gravitational radiation as they vibrated; however the original effect on the alignment of the quasars would have remained.

"The string itself is gone, but you get the magnetic field imprinted in the early universe," Poltis said. To check their hypothesis, they modeled the theorized effects of the strings on the formation of quasars, and found their predictions closely matched their observations.

Poltis added also that they still need to conduct more follow-up observations and analysis before they can be completely sure they have found evidence of the strings. The detection of a cosmic string would be an important cosmological discovery because of their theorized importance to the formation of galaxies in the early universe. However, other researchers are cautious about the results.

Jon Urrestilla of the University of the Basque Country in Biscay, Spain, doesn't want to jump to conclusions too quickly. He said that Poltis' research is exciting because his team is making testable predictions.

"It is still early to say that this work has discovered evidence for cosmic strings. It is promising, the science is sound, but one should be careful. There are assumptions made that need be checked," Urrestilla said, "But it is yet another piece to the puzzle, and the more predictions we can make from the same basic science into presumably independent effects, the closer we will be to detecting whether strings really were there."

Tanmay Vachaspati from Arizona State University in Tempe, a leading expert on cosmic strings, said he thought that the observation of lined-up quasars was puzzling, but he was skeptical it was caused by cosmic strings. He said that had the strings formed nanoseconds after the Big Bang, they probably would have decayed so quickly that their magnetic effect wouldn't last until today.

"I don't see them staying around until today to provide observational signals," Vachaspati said.

Their paper was published in Physical Review Letters on Oct. 11.


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Rado avatar

posted 13 October 2010, 6:00 am ET
Rado wrote: 

"Jon Urrestilla of the University of the Basque Country in Biscay, Spain, doesn't want to jump to conclusions too quickly. He said that Poltis' research is exciting because his team is making testable predictions. "It is still early to say that this work has discovered evidence for cosmic strings. It is promising, the science is sound, but one should be careful. There are assumptions made that need be checked,""  Now, that's my guy. An example of responible scientific attitude.

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JeffMD avatar

posted 13 October 2010, 6:32 am ET
JeffMD wrote: 

Would evidence of these strings impact be seen in the spider web formation of matter I have seen in the past? Most people I guess would call them filaments but entire galaxaies, groups and super groups of galaxies line up along these lines and produce really cool looking structures.   Just a thought  Jeff

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StanislawUlam avatar

posted 13 October 2010, 7:38 am ET

I think that this is very interesting research evidence that needs to be carefully evaluated. At this stage, it is wise to keep an open mind and weigh all of the evidence as it comes in. We find ourselves at the beginning of a long process of testing and analysis, not near the end. The implications for some version of string theory possibly being true would be important if this evidence were confirmed. Let us take time to carefully work through the process.

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garyegray avatar

posted 13 October 2010, 8:22 am ET
garyegray wrote: 

I believe Space-Time to actually be a energy fabric, something like a continuous ocean of energy that is infinite.  Within this fabric, it can actually become compressed, forming localized and focused energy or, in enough quantities, become matter.  As such, matter and energy are made from the space-time fabric.  Our universe could be just one of countless universes in a vast ocean of the overall infinite Universe, if you could back up and see it all from a macro perspective.

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Nomen avatar

posted 13 October 2010, 9:02 am ET
Nomen wrote: 

It's interesting how much ridicule the string theory got a few years ago.  That the gravity fields would dissipate while the effects of the magnetic fields remain fixed over time doesn't quite make sense for a number of reasons.  A lot more evidence is needed and more possibilities explored.  At least nobody is trying to claim it as undisputed fact yet.  Hopefully, scientific method will prevail instead of politics.

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rreilly656 avatar

posted 13 October 2010, 10:21 am ET
rreilly656 wrote: 

These cosmic strings are actually portals to an alternate universe. I know this because I found one of these portals in a changing booth at my local Target.  The first thing I wanted to do was hook up with the alternate Megan Fox because I was convinced that in the alternate place she wouldn't scream and call the cops. Unfortunately, on the "other side" Megan Fox is a guy named Maurice. However, all was not lost, because I got to hook up with Lois Griffin, who's not a cartoon character "over there," but a real person.

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Rascal_sage avatar

posted 13 October 2010, 10:31 am ET
Rascal_sage wrote: 

"The team members think that the magnetic fields of the two cosmic strings affected the direction the quasars are pointing."  This sounds like a chicken-and-egg scenario, because quasars generate magnetic fields, the direction of which obviously depends on the direction the quasars are pointing.

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Gilmoy avatar

posted 13 October 2010, 12:34 pm ET
Gilmoy wrote: 

Now there's a mind-stretching exercise in scale!  Imagine a "single" cosmological construct, so vast and ponderous that its magnetic field can cause galactic quasars to align like iron filings!  Rascal_sage: It's not chicken-and-egg.  It's Godzilla and caviar (= lots of tiny eggs).  The quasars are the caviar!!  That's how big they're saying a cosmic string is.  Cool, huh?

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via space.com

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Extraordinarily ordinary.

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