Inside the Electron fl 93
To Phillips this bubble was clearly a gluon, zero mass, all energy, an-
other form of the particle envisaged by physicists as binding quarks
into a nucleus.The threads emanating from a walnut were clearly tubes
of magnetic flux, that is, vortices in the ambient superconducting
Higgs vacuum along which were being channeled lines of magnetic
flux emitted by the magnetic monopole UPAS or subquarks.
Phillips found it significant that the bubbles were seen to be spin-
ning because both gluons and their hypothetical counterparts (hyper-
color gluons) are posited by physicists as having an intrinsic spin
angular momentum of I. Their streaming back and forth along a
thread--or flux tube-Phillips explained as resulting from their virtu-
ally continual emission and absorption by the UPAS at each end of the
flux tube.
So it appeared that the theosophists' dots of light in lines of force
were, as seen by Ron, actually spinning doughnut-shaped particles
(spin-I gluons) that did not enter the UPA but were created and de-
stroyed at the boundary by the walnut-shaped surface enclosing it.This
indicates, says Phillips, that particles of energy such as gluons are single
strings, whereas spin-1/2 particles of matter such as subquarks and
electrons are bundles of ten strings-a difference, says Phdips, that has
yet to be discovered by physicists.
Time will tell. Meanwhile Phillips wondered if Ron could shed
light on a particle more findamental than the UPA of the theosophists,
the electron. Phillips says the reason Leadbeater and Besant didn't no-
tice and describe electrons is that while they were preoccupied with
observing the double nuclei of their enormously bigger ''atoms," the infin-
itesimally smaller electron would have been flying past in the enor-
mous void of the atom, since the electron's size, relative to the nucleus,
is that of a BB lost in a six-acre field. Whereas the physicists' chemical
atoms are measured in ten-billionths of a centimeter, weighing a mil-
lionth of a billion-millionth of a gram, the atom's nucleus, ~oo,ooo
times smaller and five trillion times denser than uranium, occupies no
more than a trillionth of what is 99.9 percent empty space.There, the
electrons, 1,800 times lighter still than the lightest nucleus, are posited
as scurrying around at 99.99995 percent of the speed of light.