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Physicists Develop Test for 'String Theory' (Forwarded)



 
 
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Old January 24th 07, 01:06 AM posted to sci.space.news
Andrew Yee[_1_]
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Default Physicists Develop Test for 'String Theory' (Forwarded)

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University of California-San Diego

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Additional Resources:
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FOR IMMEDIATE RELEASE: Tuesday, January 23, 2007

Physicists Develop Test for 'String Theory'

For decades, scientists have taken issue with "string theory" -- a theory of
the universe which contends that the fundamental forces and matter of nature
can be reduced to tiny one-dimensional filaments called strings -- because
it does not make predictions that can be tested.

But researchers at the University of California, San Diego, Carnegie Mellon
University, and The University of Texas at Austin have now developed an
important test for this controversial "theory of everything."

Described in a paper that will appear in the January 26 issue of the journal
Physical Review Letters L, their test involves measurements of how elusive
high-energy particles scatter during particle collisions. Most physicists
believe those collisions will be observable at the Large Hadron Collider, or
LHC, a subatomic particle collider scheduled to be operating later this year
at the European Laboratory for Particle Physics, or CERN.

"Our work shows that, in principle, string theory can be tested in a
non-trivial way," explained Ira Rothstein, co-author of the paper and
professor of physics at Carnegie Mellon.

Rothstein and colleagues Jacques Distler, a professor of physics at The
University of Texas at Austin; Benjamin Grinstein, a professor of physics at
the University of California, San Diego; and Carnegie Mellon graduate
student Rafael Porto developed their test based on studies of how strongly
force-carrying particles called W bosons scatter in high-energy particle
collisions generated within a particle accelerator. W bosons are special
because they carry a property called the weak force, which provides a
fundamental way for particles to interact with one another.

When the LHC turns on later this year, scientists will begin to investigate
the scattering of W bosons, which has not been possible with other particle
accelerators. Because the new test follows from a measurement of W boson
scattering, it could eventually be performed at the LHC, according to the
authors.

"The beauty of our test is the simplicity of its assumptions," explained
Grinstein of UCSD. "The canonical forms of string theory include three
mathematical assumptions -- Lorentz invariance (the laws of physics are the
same for all uniformly moving observers), analyticity (a smoothness criteria
for the scattering of high-energy particles after a collision) and unitarity
(all probabilities always add up to one). Our test sets bounds on these
assumptions."

He added, "If the test does not find what the theory predicts about W boson
scattering, it would be evidence that one of string theory's key
mathematical assumptions is violated. In other words, string theory -- as
articulated in its current form -- would be proven impossible."

"If the bounds are satisfied, we would still not know that string theory is
correct," said Distler. "But, if the bounds are violated, we would know that
string theory, as it is currently understood, could not be correct. At the
very least, the theory would have to be reshaped in a highly nontrivial
way."

String theory attempts to unify nature's four fundamental forces (gravity,
electromagnetism, and the strong and weak forces) by positing that
everything at the most basic level consists of strands of energy that
vibrate at various rates and in multiple, undiscovered dimensions. These
"strings" produce all known forces and particles in the universe, thus
reconciling Einstein's theory of general relativity (the large) with quantum
mechanics (the small).

Proponents say that string theory is elegant and beautiful. Dissenters argue
that it does not make predictions that be tested experimentally, so the
theory cannot be proven or falsified. And no particle accelerator yet exists
that can attain the high energies needed to detect strings. Because of this
technical limitation, tests of string theory have remained elusive until
now.

"Since we don't have a complete understanding of string theory, it's
impossible to rule out all possible models that are based on strings," said
Rothstein. "However, most string theory models are based upon certain
mathematical assumptions, and what we've shown is that such string theories
have some definite predictions that can be tested."
 




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