Reinventing The Bulb Again

Photons from \(g^{-}, g^{+}\) dipoles are available from crystals that have a \(g^{+}\) layer beyond the orbiting \(p^{+}\) particles with the complementary \(e^{-}\) particles removed.  In this case an extra \(g^{+}\) particle layer is added to the atoms.

Photons from \(T^{-}, T^{+}\) dipoles are available from material made invisible with the introduction of \(T^{-}\) particles onto its surface.

Huge emission of such photons might be possible from these materials if the appropriate negative charge (\(g^{-}\) or \(T^{-}\)) current are passed through a wired, twisted form of the material just like in a light bulb.

These bulbs however, will not oxidize in air because totally different chemistry based on temperature or gravity particles are involved. 

Technology based on such photons are likely to be with less noise and much more durable to chemical aging, decay and erosion.

Good night.