The electron has a dark energy core
On the extended space structure of a single electron

On May 13, 2005, at 7:46 AM, Ken Shoulders wrote:

A paper by Ken Shoulders entitled "EVOs And The Hutchison Effect" will be presented at the 2005 Conference on Cold Fusion to be held at MIT on May 21. A 1 MB .PDF file showing some of the graphics slides to be used in that presentation can now be downloaded from:
http://www.svn.net/krscfs/

Ken


For a shell of N electrons

N(h/mc)^2 = 4piro^2

N^1/2(h/mc) = (4pi)^1/2ro

ro^3 = (Ne)^2/(2mc^2/\zpf)

N^3/2(h/mc)^3/(4pi)^3/2 = N^2e^2/2mc^2/\zpf

(h/mc)^3/(4pi)^3/2 = N^1/2e^2/2mc^2/\zpf

/\zpf = (4pi)^3/2N^1/2(e^2/2mc^2)/(h/mc)^3

e^2/hc ~ (1/137) = (classical electron radius)/(Compton radius)

/\zpf ~ (4pi)^3/2N^1/2(e^2/hc)(mc/h)^2

For a SINGLE ELECTRON N = 1 (Bohm hidden variable)

This solves a 100 year old problem from Lorentz.

The electron is a shell of charge with a dark energy core.

The zero point stress energy density tensor of the dark energy core is

tuv(ZPF core) = (c^4/8piG)/\zpfguv


On May 18, 2005, at 10:02 PM, Jack Sarfatti wrote:


bcc

PS for uniform /\zpf > 0 of negative pressure (dark energy core)

F/m = -dV/dr = -2c^2|/\zpf|ro + (Ne)^2/mro^2 = 0

ro^3 = (Ne)^2/2mc^2/\zpf

stability

d^2V/dr^2 = +2c^2|/\zpf| + 2(Ne)^2/mro^3 > 0


On May 18, 2005, at 9:42 PM, Jack Sarfatti wrote:


Note that my theory of Ken Shoulders charge clusters also has a dark energy core that stabilizes the shell of N electrons. The dark energy core potential ~ + c^2|/\zpf|r^2 holds the repulsive Coulomb barrier + (Ne)^2/mr in check!

Similarly for Pioneer 10 & 11 anomaly, galactic halo & other phenomena.