While Terry the Elder is untangling string while
mooning over Kim Novak. I'll say hats off to Brian Green.
Electrons and positrons are routinely ejected from
radio-nuclei and K capture takes an electron
with a circumference or wavelength = hbar/mc
into the nucleus where it's spin stays at
mcr = hbar/2(pi) indicating that the nucleus
has share energy from it's own subunits to donate
to the electron in order shrink it down to fit.
IOW, in order for mcr = hbar/2(pi) m= E/c^2
satisfies this simply by the product of E* r changing
to keep spin equal to hbar/2(pi) [E* r = hbar/2(pi)]
The nucleon subunits (strings disks or loops) go through
the same sharing exercise in reverse to conserve energy and spin.
About the same as interacting flywheels work.
The formation on a deuteron from two protons, an electron
and the concurrent production of a neutrino pair is a good
example:
P-e-P -----> D + internal antineutrino + the ejected neutrino
Or
P + P ----> D + e+ and the neutrino meaning the collision
has to be energetic enough to create the electron-positron
pair.
>
> BTW, for those not initiated in String Theory, the positrons
> and Electrons are "Length Only" Loops or Disks with circumference
> or Wavelength [2(Pi)R)] that can stack side-by-side and act like
> a length-less solenoid.
> Hence a nucleon has a radius but no width.
> Something to do with "folding in ten dimensional space".
>
> Electrons and positrons (Leptons) making up a group 137 times their
> combined 1.02 MeV mass-energy is close to the mass-energy
> of the Pi Meson (134.97 MeV).
> IOW, 1.02E6 * 137 = 139.77 MeV.
> Then, 1.02E6 * 4 * 137 = 559 MeV which is the unbound
> mass-energy of a meson required to end up with a 312 MeV
> "+/- Quark" in the proton(Baryon). (559 - 312 MeV) is the energy
> > given off as the binding energy of the two (+ or up ) and one (- or down)
> "Quarks" in the proton.
> OTOH, 1.02E6 * 8* 137 = 1.118 GeV w3hich could
> be the unbound mass-energy of a meson required to end up
> with a 624 MeV (+/- Quark) in a heavy baryon "proton" (*P) which
> would make it 2 times the energy-mass of a proton with same
> charge and spin, but ~1/2 the nuclear magnetic moment,and
> a different radius
>
> IOW, there are groups consisting of 137 positrons and electrons
> (Pi Mesons) making up heavier-stranger mesons that
> end up making Baryons.
> Perhaps a garden variety of stable "WIMPs" too.
>
> Pulsars that are known to spew out megatons of Positrons and Electrons
> every second can make the Leptons-Mesons-Baryons better than the
> high energy physics laboratory "atom smashers".
>
Fred
