Polarization:
"Propagating light consists of a transverse electric and magnetic field, a single photon will oscillate on a line perpendicular to the propagation direction. If the coordinate system is not aligned with the electric field direction, it can be broken up into two perpendicular components."
Pockels Effect:
"An electrooptical effect in which the application of an electric field produces a birefringence which is proportional to the field."
Kerr Effect:
"The development of birefringence when an isotropic transparent substance in placed in an electric field."
Electric Polarization P is defined as the difference between the electric fields D (induced) and E (imposed)
P = D - E
or
P = eoXeE
Electric Susceptibility Xe = K*eo/eo] - 1 = P/eoE eo = 8.8452e-12 C^2 N^-1 m^-2 or Farad m^-1
What happens between the plates
1, of a vacuum capacitor when K*eo is a function of E?
2, when H2 or D2 is introduced?
3, when the energy density joules/meter^3 a function of D and E
approaches a critical value between the plates of a capacitor?
4, Zero point Energy ZPE tapping at some point?
Do atoms spontaneously ionize at high values of E?
Do Deuterons lose a neutron at high values of E?
On a Surface or in a "Condensed Matter" Lattice?
Does this also alter or cause absorption of Gamma or X-Ray Photons?
The~ 3.4e14 m^-2 sec^-1 Solar Neutrino Flux when it interacts
with high E Fields?
Neutrino Oscillation?
Vacuum Polarization?
