Robin
Multiplying each of these frequencies by Planck's constant
yields
equivalent photon energies. The first works out to 27.2 eV
(Mills'
"energy hole"), and the second works out to 511 keV, which is
the
mass/energy of the electron.
Didn't Hartree work all of this out long before R. Mills came
along, or am I missing something? ... other than that you are now
seeming to prefer a torroid visualiztion to a lissajous? Randy
won't like it that you're getting too far afield from his
two-dimensional OS....
For those who aren't focused on these details to Robin's
intensity, it's worth noting that the classical electron radius is
1/137 as long as the Compton wavelength of the electron, so one
would expect this ratio to reappear as a factor in the equivalent
photon energies.
Thanks to alpha - we have tied-up the 3 most basic length scales:
Bohr radius - about 5 × 10^-11 meters
Compton wavelength - about 4 × 10^-13 meters
Classical electron radius - about 3 × 10^-15 meters
.... each of which is 1/137 as big as the previous one. But this
has been known for some time.
The next step up in the geometric scale is somewhat import for
ZPE, no? 137 Bohr radii turns up in the Casimir integral... and
one might suspect that it marks the approximate dividing line
between Grimer's beta-aether and alpha aether and that may be the
optimum size for the "exciton"...
... how excitin'
Jones
