New physics might have been found at Atom Smasher's predecessor

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London, Nov 4 : The announcement by physicists that the Tevatron particle accelerator at Fermilab in Batavia, Illinois, which is the Large Hadron Collider's (LHC's) predecessor, has produced particles that they are unable to explain, could be a sign of new physics.

The Collider Detector at Fermilab (CDF) monitors the particles that spew from collisions between protons and anti-protons, which are accelerated and smashed head-on by the Tevatron.

The collision occurs inside the 1.5-centimetre-wide "beam pipe" that confines the protons and anti-protons, and the particles created are tracked by surrounding layers of electronics.

According to a report in New Scientist, in this instance, the CDF was looking at bottom quarks and bottom anti-quarks that decay into, among other things, at least two charged particles called muons.

The team was in for a big surprise.

First, they saw far more muons coming from the collisions than expected. But crucially, some of these muons seemed to have been created outside of the beam pipe: they had left no trace in the innermost layer of the detector.

The CDF team says that it is unable to explain such muons using the standard model of particle physics, or from what they know of their detector.

"However, we haven't ruled out a mundane explanation for this, and I want to make that very clear", said CDF spokesperson Jacobo Konigsberg, who adds that it is important that other experiments verify the effect.

While the CDF team is circumspect, theoreticians are more willing to speculate.

If the signal is not spurious, this means that some unknown particle with a lifetime of about 20 picoseconds was produced in the collision, travelled about 1 centimetre, through the side of the beam pipe, and then decayed into muons.

"A centimeter is a long way for most kinds of particles to make it before decaying," said Dan Hooper of Fermilab. "It's too early to say much about this. That being said, if it turns out that a new 'long-lived' particle exists, it would be a very big deal," he added.

According to Neal Weiner of New York University, "If this is right, it is just incredibly exciting. It would be an indication of physics perhaps even more interesting than we have been guessing beforehand."


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