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WASHINGTON — Designed to scan the heavens thousands to billions of light-years beyond the solar system for gamma rays, the Fermi Gamma-ray Space Telescope has also picked up a shocking vibe from Earth. During its first 14 months of operation, the flying observatory has detected 17 gamma-ray flashes associated with terrestrial storms — and some of those flashes have contained a surprising signature of antimatter.
During two recent lightning storms, Fermi recorded gamma-ray emissions of a particular energy that could have been produced only by the decay of energetic positrons, the antimatter equivalent of electrons. The observations are the first of their kind for lightning storms. Michael Briggs of the University of Alabama in Huntsville announced the puzzling findings November 5 at the 2009 Fermi Symposium.
It’s a surprise to have found the signature of positrons during a lightning storm, Briggs said.
The 17 flashes Fermi detected occurred just before, during and immediately after lightning strikes, as tracked by the World Wide Lightning Location Network.
During lightning storms previously observed by other spacecraft, energetic electrons moving toward the craft slowed down and produced gamma rays. The unusual positron signature seen by Fermi suggests that the normal orientation for an electric field associated with a lightning storm somehow reversed, Briggs said. Modelers are now working to figure out how the field reversal could have occurred. But for now, he said, the answer is up in the air.
Recording gamma-ray flashes — which have the potential to harm airplanes in storms — isn’t new. The first were found by NASA’s Compton Gamma-ray Observatory in the early 1990s. NASA’s RHESSI satellite, which primarily looks at X-ray and gamma-ray emissions from the sun, has found some 800 terrestrial gamma-ray flashes, Briggs noted.
Found in: Atom & Cosmos
- Briggs, M. 2009. Fermi-GBM observations of terrestrial gamma-ray flashes. Fermi Symposium. Nov. 5. Washington, D.C. [Go to]
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Keith Marlow
Positrons (e+) annihilate and emit characteristic 0.511 MeV gamma rays.
Proton-rich nuclei are easy to produce with an electrical discharge through Hydrogen, the lightest of all elements. Lightweight elements like H are enriched in the upper atmosphere of the Earth and the Sun.
An electrical discharge through the Sun's H-rich atmosphere was recently found to produce two positron-emitters there, N-13 and O-15 ["Observational confirmation of the Sun's CNO cycle," Journal of Fusion Energy 25 (October 20, 2006) pages 141-144] [Link was removed]
The top of Earth's atmosphere also contains copious amounts of the most lightweight element, H. That is probably where proton-rich nuclei are produced by electrical discharges in air here on Earth.
With kind regards,
Oliver K. Manuel
not just electrons, are in storms on Earth
==== .
So the antimatter could be related to the trigger of the lightning,
rather than caused by the lightning.
================= .
#
You know, it would be sufficient to really understand the electron.
/ Albert Einstein./
#
Tell me what an electron is and I'll then tell you everything.
/ Somebody./
#
" The electron that can be told is not the true electron."
/ David Harrison /
#
One professor asked a student:
“ What is an electron?”
“ Ah, God damn it! I have forgotten. And in fact even in the
morning I knew it. ”- the student answered.
“ You should recollect it without fail, - professor said –
because you were the unique person who knew, what
electron was, and you had suddenly forgotten!”
/ From a book. /
This old joke does not grow old.
We don’t know what electron is, what positron is, but . . .
=== .
Strange physic’s contradiction
1
On the one hand :
The particles in the Universe are more than antiparticles
/ Baryon asymmetry /
2.
On the other hand:
Dark matter in the Universe is more than visual matter
Question :
Does one physic’s hand know that the other hand do ?
Sadovnik Socratus
There are more wonders (yet to be discovered) under the sun and stars than all of our science........
It is one of electropositron hipothesis predict.
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