If there is a fourth layer,
(\(p^{+}\), \(g^{+}\), \(T^{+}\), \(p^{+}\))
or
(\(e^{-}\), \(T^{-}\), \(g^{-}\), \(e^{-}\))
we see that the first and fourth particle will both produce the same weak field and interact. Would these two fields reinforce, cancel or be orthogonal?
In all cases, the spin axes of the inner and outer particles (of the same type), will be ordered. Consecutive particles of the same type taking up orbits around the nucleus will align to generate fields that either reinforce, cancel or be orthogonal to the inner layer fields.
It is likely that the outer/added field cancels the inner field for a minimum energy system, such that on removing the outer particle, there is an increase in the inner field strength or a reversal of the observed field.
'Til next time...
