Bob, I had the fortunate experience of spending ample time with Both Donald
Hotson and Arthur Manelas.
I hosted Don for three days at my home in Massachusetts in 2005. I queried him
about many aspects of his EPO model.
I shared my early Manelas data with Don shortly before his death and he tho
That's one of the cool characteristics of the epo vacuum lattice that I am
proposing. The smaller the scale, the more nonlinear the propagation
medium will be. Thus, the smaller the wavelength of the photon, the more
nonlinear the medium and the smaller the soliton.
On Sat, Oct 21, 2017 at 10:44
On Sat, Oct 21, 2017 at 9:23 AM, Bob Higgins
wrote:
The photon cannot be stretched out too far, or an atom would be unable to
> absorb its energy in an acceptable time.
>
I think this would be the case if the usual four dimensions were involved.
If a further dimension came into play, it is possi
Too bad that Don Hotson is now deceased. It would be wonderful to get his
thinking on these questions.
While I described a vacuum lattice comprised of epos, each having an
elementary magnetic dipole and a freely polarize-able electric dipole at a
right angle, I didn't describe the effect of the m
The photon cannot be stretched out too far, or an atom would be unable to
absorb its energy in an acceptable time. The problem with the other
speculations about soliton being a description of a photon is that the
soliton is only a solution in a NONLINEAR propagation medium - the solution
solution
Hi Eric,
I think Hotson suggests that epos have 0 mass. As I understand it, only
positive energy charges have mass. According to Hotson, protons and
neutrons are comprised of electron and positron lattices - perhaps in a
stabilized positronium-like cluster. Each of the electron and positron has
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