It is always amusing to watch new
evidence mess up old assumptions. There
is a lot out there and we get more data with every passing day. The problem is that we can not ever test our theories
properly to confirm out ideas.
The only thing we know for sure
is that if we could, we would be astounded by how much we never imagined. Thus I find assured commentary to be
disconcerting.
I suspect that there are now patterns
out there to be winkled out and explained quite differently from present
paradigms.
Mysterious ‘superflares’ confound astronomers
By Tushna Commissariat
Most of us with an interest in astronomy would recognize the Crab
Nebula in images and videos quite readily. The supernova remnant, first seen on
Earth in the year 1054, consists of a super-dense neutron star that spins about
30 times an second, making it a pulsar that swings a beam of radiation towards
Earth, like a lighthouse.
NASA’s Fermi Gamma-ray Space Telescope is one of many that look for
high-energy radiation sources, and recently the Crab Nebula has caught its eye.
The past seven months have seen some rather dramatic variations within the
nebula, with Fermi and other telescopes noticing X-ray flares a hundred times
brighter than seen ever before.
Since 2009 Fermi has detected several short-lived gamma-ray flares at
energies greater than 100 million electron volts (eV), which is much higher
than the flares seen before. On 12 April Fermi detected a flare that grew about
30 times more energetic than the nebula’s normal gamma-ray output and about
five times more powerful than previous outbursts. On 16 April an even brighter
flare erupted, which lasted for a few days before the activity died out.
“These superflares are the most intense outbursts we’ve seen to date
and they are all extremely puzzling events,” says Alice Harding of NASA’s Goddard Space Flight
Center
“We think they are caused by
sudden rearrangements of the magnetic field not far from the neutron star, but
exactly where that’s happening remains a mystery.”
When Fermi noted the variances in 2010 it alerted NASA’s Chandra
X-ray Observatory, which began routinely monitoring the nebula to identify
X-ray emissions associated with the outbursts. When Fermi scientists alerted
the astronomers at Chandra about the spike in April, a pre-planned set of
observations using the observatory was initiated.
Unfortunately, no clear evidence was seen for correlated flares in the
Chandra images, so the reason for the sudden extreme variations is still a
mystery. Theorists have deduced that the flares must arise within about
one-third of a light-year from the neutron star, but efforts to locate them
more precisely have been unsuccessful.
Scientists believe the flares occur as the intense magnetic field near
the pulsar undergoes sudden structural changes. Such changes can accelerate
electrons to velocities near the speed of light. As these relativistic
electrons interact with the magnetic field, they emit gamma rays. To account
for the observed emission, scientists say the electrons must have energies 100
times greater than can be achieved in any particle accelerator on Earth. This
makes them the highest energy electrons associated with any source within our
galaxy.
Take a look at the wonderful video by NASA that shows the
changes as seen by Chandra, as well as some spectacular shots of the nebula.
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