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STELLAR CHEMISTRY
Cosmic rays come from exploding stars
by Staff Writers
Menlo Park CA (SPX) Feb 15, 2013


Finding evidence for the acceleration of protons has long been a key issue in the efforts to explain the origin of cosmic rays. This pair of spectra from two supernova remnants (also shown visibly with data from various satellites and wavelengths) are the "smoking gun" that researchers have been looking for. The Fermi Large Area Telescope's observations fit very neatly with predictions of neutral pion decay. Credit: NASA/DOE/Fermi LAT Collaboration, Chandra X-ray Observatory, ESA Herschel/XMM-Newton. For a larger version of this image please go here.

A new study confirms what scientists have long suspected: Cosmic rays - energetic particles that pelt Earth from all directions - are born in the violent aftermath of supernovas, exploding stars throughout the galaxy.

A research team led by scientists at the Kavli Institute for Particle Astrophysics and Cosmology at the Department of Energy's (DOE) SLAC National Accelerator Laboratory sifted through four years of data from NASA's Fermi Gamma-ray Space Telescope to find the first unambiguous evidence of how cosmic rays are born.

Reporting in the Feb. 15 issue of Science, the team identified two ancient supernovas whose shock waves accelerated protons to nearly the speed of light, turning them into what we call cosmic rays. When these energetic protons collided with static protons in gas or dust they gave rise to gamma rays with distinctive signatures, giving scientists the smoking-gun evidence they needed to finally verify the cosmic-ray nurseries.

Protons make up 90 percent of the cosmic rays that hit Earth's atmosphere, triggering showers of particles that reach the ground and creating radiation for air travelers. Scientists have theorized that two of the most likely sources for the protons are supernova explosions within our Milky Way galaxy and powerful jets of energy from black holes outside the galaxy. But in neither case had the necessary evidence been nailed down.

"The energies of these protons are far beyond what the most powerful particle colliders on Earth can produce," said Stefan Funk, astrophysicist with the Kavli Institute and Stanford University, who led the analysis. "In the last century we've learned a lot about cosmic rays as they arrive here. We've even had strong suspicions about the source of their acceleration, but we haven't had unambiguous evidence to back them up until recently."

That's because the positively charged protons are deflected by any magnetic field they encounter along the way, so tracing them back to their source is impossible. But researchers using Fermi's main instrument, the Large Area Telescope, were able to approach the problem straight on through gamma-ray observations.

The supernova shock waves accelerate protons to cosmic-ray energies through a process known as Fermi acceleration, in which the protons are trapped in the fast-moving shock region by magnetic fields. Collisions between the speeding protons and slower-moving protons, most often in surrounding clouds of dust or gas, can create particles called neutral pions.

The pions, in turn, decay quickly into gamma-ray photons, the most energetic form of light. Unaffected by magnetic fields, the gamma rays travel in a straight line and can be traced back to their source. The gamma rays from this particular process come in a distinctive range of energies.

Fermi researchers analyzed data from two supernova remnants thousands of light years away. Both turned out to be strong sources of gamma rays, but not at energies below what neutral pion decay would produce - the observational proof scientists had been looking for.

"Until now, we had only theoretical calculations and common sense to guide us in the belief that cosmic rays were generated in supernova remnants," said Jerry Ostriker, an astrophysicist from Columbia University who was not involved in the study. "The direct detection of pion-decay signatures in supernova remnants closes the loop and provides dramatic observational evidence for a significant component of cosmic rays."

As humans spend more time high up in and above the atmosphere, many questions remain to explain both the way cosmic rays affect life here on Earth, and the fundamental processes that control their origins and acceleration.

"Astronauts have documented that they actually see flashes of light associated with cosmic rays," Funk noted. "It's one of the reasons I admire their bravery - the environment out there is really quite tough." The next step in this research, Funk added, is to understand the exact details of the acceleration mechanism and also the maximum energies to which supernova remnants can accelerate protons.

Kavli Institute Director Roger Blandford, who participated in the analysis, said, "It's fitting that such a clear demonstration showing supernova remnants accelerate cosmic rays came as we celebrated the 100th anniversary of their discovery. It brings home how quickly our capabilities for discovery are advancing."

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Related Links
DOE/SLAC National Accelerator Laboratory
Stellar Chemistry, The Universe And All Within It






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STELLAR CHEMISTRY
Cosmic ray mystery lifted in new findings
Boston (AFP) Feb 14, 2013
Cosmic rays - fast-moving particles that constantly pummel our planet - come from the explosion of supernovae, new research confirmed Thursday, resolving an astronomical mystery. Protons make up 90 percent of these rays that pelt Earth's atmosphere and were discovered a century ago by the Austrian-born physicist Victor Franz Hess. Scientists had suggested two possibilities for the orig ... read more


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