If the LHC discovers the Higgs boson or other theoretical particles, their existence could help explain inflation, one of the universe's great mysteries
June 29, 2012?|
?|Image: CERN
We?ve long understood black holes to be the points at which the universe as we know it comes to an end. Often billions of times more massive than the Sun, they...
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Within a sliver of a second after it was born, our universe expanded staggeringly in size, by a factor of at least 1026. That's what most cosmologists maintain, although it remains a mystery as to what might have begun and ended this wild expansion. Now scientists are increasingly wondering if the most powerful particle collider in history, the Large Hadron Collider (LHC) in Europe, could shed light on this mysterious growth, called inflation, by catching a glimpse of the particle behind it. It could be that the main target of the collider's current experiments, the Higgs boson, which is thought to endow all matter with mass, could also be this inflationary agent.
During inflation, spacetime is thought to have swelled in volume at an accelerating rate, from about a quadrillionth the size of an atom to the size of a dime. This rapid expansion would help explain why the cosmos today is as extraordinarily uniform as it is, with only very tiny variations in the distribution of matter and energy. The expansion would also help explain why the universe on a large scale appears geometrically flat, meaning that the fabric of space is not curved in a way that bends the paths of light beams and objects traveling within it.
The particle or field behind inflation, referred to as the "inflaton," is thought to possess a very unusual property: it generates a repulsive gravitational field. To cause space to inflate as profoundly and temporarily as it did, the field's energy throughout space must have varied in strength over time, from very high to very low, with inflation ending once the energy sunk low enough, according to theoretical physicists.
Much remains unknown about inflation, and some prominent critics of the idea wonder if it happened at all. Scientists have looked at the cosmic microwave background radiation?the afterglow of the big bang?to rule out some inflationary scenarios. "But it cannot tell us much about the nature of the inflaton itself," says particle cosmologist Anupam Mazumdar at Lancaster University in England, such as its mass or the specific ways it might interact with other particles.
A number of research teams have suggested competing ideas about how the LHC might discover the inflaton. Skeptics think it highly unlikely that any earthly particle collider could shed light on inflation, because the uppermost energy densities one could imagine with inflation would be about 1050 times above the LHC's capabilities. However, because inflation varied with strength over time, scientists have argued the LHC may have at least enough energy to re-create inflation's final stages.
It could be that the principal particle ongoing collider runs aim to detect, the Higgs boson, could also underlie inflation.
"The idea of the Higgs driving inflation can only take place if the Higgs's mass lies within a particular interval, the kind which the LHC can see," says theoretical physicist Mikhail Shaposhnikov at the ?cole Polytechnique F?d?rale de Lausanne in Switzerland. Indeed, evidence of the Higgs boson was reported at the LHC in December at a mass of about 125 billion electron volts, roughly the mass of 125 hydrogen atoms.
Also intriguing: the Higgs as well as the inflaton are thought to have varied with strength over time. In fact, the inventor of inflation theory, cosmologist Alan Guth at the Massachusetts Institute of Technology, originally assumed inflation was driven by the Higgs field of a conjectured grand unified theory.
Source: http://rss.sciam.com/click.phdo?i=06243282ca627f368df93b544d4b5d07
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