On Mar 17, 2006, at 3:04 PM, Bob Fickle wrote:
Yes, they will follow the field lines; but there's not much large-
scale order to the galactic magnetic field, so it's more a
diffusion process, once the particles leave the supernova's
immediate area. There's no significant recombination-
]
To: vortex-l@eskimo.com
Date: 3/18/2006 8:25:43 AM
Subject: Re: Cold Fusion Supernova 1987A]
On Mar 17, 2006, at 3:04 PM, Bob Fickle wrote:
Yes, they will follow the field lines; but there's not much large-
scale order to the galactic magnetic field, so it's more a
diffusion process
On Mar 18, 2006, at 7:04 AM, Frederick Sparber wrote:
Horace.
Isn't it a bit presumptuous to assume isotropic
magnetic fields in areas of space, based on local measurements?
We are talking about small (e.g 5x10^-10 T) galactic fields. It
doesn't much matter which way they point. The
Maybe the gamma burst was the culprit?
OTOH "Cygnons" could be Positronium (coupled electron-positron pairs).
Fred
http://www.energystorm.us/Transmutation_Of_Radioactive_Nuclear_Waste-r80699.html
Studies have shown that all proposed transmutation processes to treat RNW using neutron
Interesting to associate this photon transmutation study with
the D + D He-4 + 24 Mev (photons) and transmutations in CF.
- Original Message -
From: Frederick Sparber
To: vortex-l
Sent: 3/17/2006 7:09:18 AM
Subject: Re: Cold Fusion Supernova 1987A]
Maybe the gamma burst
Yes, they will follow the field lines; but there's not much large-scale
order to the galactic magnetic field, so it's more a diffusion process,
once the particles leave the supernova's immediate area. There's no
significant recombination- not enough electrons moving close to the same
speed,
About 24 hours after the flash of light (and gamma rays) from Supernova 1987A about 150,000 light-years
from earth in the Magellanic Cloud were observed, ~ 1.0 eV rest mass neutrinos from it were picked up by
the Japanese Super-Kamiokande neutrino detector.
The enormous electron - proton (Eo
m: Frederick Sparber
To: vortex-l
Sent: 3/16/2006 2:52:14 AM
Subject: Re: Cold Fusion Supernova 1987A
About 24 hours after the flash of light (and gamma rays) from Supernova 1987A about 150,000 light-years
from earth in the Magellanic Cloud were observed, ~ 1.0 eV rest mass neutrinos fr
PM
Subject: Re: Cold Fusion Supernova 1987A
Recent Chandra x-ray photos of 1987A.
One of those in our Galaxy and we're history.
http://chandra.harvard.edu/photo/2005/sn87a/
Recent Chandra observations have revealed new details about the fiery
ring surrounding the stellar explosion
12:56 PM
Subject: Re: Cold Fusion Supernova 1987A
Recent Chandra x-ray photos of 1987A.
One of those in our Galaxy and we're history.
http://chandra.harvard.edu/photo/2005/sn87a/
Recent Chandra observations have revealed new details about the fiery
ring surrounding the stellar
A 100 GeV charged particle (electron OR proton) has a radius of
curvature in the galactic field (1 microgauss avgerage) of about 3
billion km (3 light-hours). No way they're crossing galactic distances
anytime soon- probably billions, rather than millions, of years...
Neutrinos, sure-
On Mar 16, 2006, at 6:18 PM, Bob Fickle wrote:
A 100 GeV charged particle (electron OR proton) has a radius of
curvature in the galactic field (1 microgauss avgerage) of about 3
billion km (3 light-hours). No way they're crossing galactic
distances anytime soon- probably billions,
You miss the point. They're not coming here- they're spiralling in
circles about the size of the solar system, 150,000 light-years from
here. They will eventually drift throughout the galaxy, but on a
timescale thousands of times larger than a direct path would take.
Horace Heffner wrote:
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