Symmetry Breaking by Electric Discharges in Water and Formation of Light Magnetic Monopoles in an Extended Standard Model (Part III)

By Lochak (theory) and Urutskoev (experiment) the hypothesis has been suggested that during electric discharges in water light magnetic monopoles can be created and according to Lochak these monopoles should be looked upon as a kind of excited neutrinos. Based on a quantum field theoretic derivation of an extended (effective) Standard Model, which describes the effects of symmetry breaking caused by the discharge, in Part I and Part II (H. Stumpf, Z. Naturforsch. 66a, 205 and 329 (2011)), the possibility was investigated whether under these circumstances magnetic effects can occur. While in the above two parts the focus of the theory was directed to show the evidence of magnetically active neutrinos, in this part the behaviour of the leptonic doublets (ν, e⁻) and (ν̅, e⁺) is studied under the (symmetry breaking) conditions of such an electric discharge. The results obtained by the quantum field theoretic treatment of this problem are in agreement with symmetry considerations earlier performed by Lochak.