----- Original Message -----
From: Frederick Sparber
To: vortex-l
Sent: 6/16/2006 4:22:04 AM
Subject: [Vo]: Re; Three Photon Positron-Electron Annihilation & Electronium
Normally the photons given off during Positron-Electron Annihilation
are two 510 KeV photons, but three photon Annihilation radiation
also occurs.
If the known Positron Anion (Ps-) collapses to a stable ~ 2 to 2.7 electron
mass bound particle Electronium (*e-) or (e- e+ e-) the most likely energy given off
as the binding energy (mass defect) are three photons of ~ 170 KeV each or
the equivalent of 1/3 of an electron mass.
Coincidentally the anomalous "2 Billion Deg" x-ray temperature achieved by
Sandia's Z Pinch of steel wires corresponds to the estimated 170 KeV
3-photon radiation for (*e-) formation, or possible disruption.
>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
[Vo]: Re: Augering Electronium (*e-) out of Atoms
If (*e-) exists (most likely in Potassium, Argon, or Oxygen atoms) attempting to
detect it other than by it's capture by Hydrogen or Deuterium poses a
challenge.
Attempting to eject it by electron stripping of an atom will probably
cause it to go into a lower energy level or shell releasing detectable
anomalous spectra.
The Auger Effect might shake it out of an atom where
it can be detected by using a mass spectrometer of sorts to
compare it's mass with that of an electron.
Electronium might be ubiquitous but not very ostentatious.
>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
[Vo]: Re: Potassium, Argon, Calcium, Oxygen, (*e-) and Fractional Orbits
Potassium along with the K-40 radioisotope decay daughters Ar-40 and Ca-40, is the
most likely source of a possible stable bound Ps- or ~ 2 electron mass "Electronium"
(*e-) followed by Oxygen-Oxides, Sulfur-Sulfides, and Chlorine etc.
A composite particle with a mass ~ 2 to 2.7 times that of the electron, with the
same charge, isn't likely to play by the Classical Bohr Atom rules for the electron.
Aside from the mass difference, there is radius and magnetic moment
to consider in how this (putative) particle interacts with a Proton or Deuteron.
As I recall Potassium was used in the early Cold Fusion experiments and
Potassium Nitrate KNO3 was used in Mills' early "Hydrino" work.Since
Argon-40 makes up about 1% of the air breathed on over-unity experiments
and H2O is abundant about everywhere except in Albuquerque....
< 30 >
