New Revelation of Lightning Ball Observation and Proposal for a Nuclear Reactor Fusion Experiment

TL;DR

This paper presents new insights into Lightning Ball phenomena, explores the forces involved in their formation, and proposes a novel electromagnetic approach to achieve spherical plasma confinement for fusion reactors, potentially reaching ignition temperatures.

Contribution

It introduces a new theory linking Lightning Ball formation to plasma confinement in fusion reactors and proposes an experimental method using long-range electromagnetic forces.

Findings

Detailed observation of Lightning Balls and their forces

Analogies between Lightning Balls and plasma confinement

Proposal of electromagnetic forces for spherical plasma compression

Abstract

In this paper, the author brings further details regarding his Lightning Ball observation that were not mentioned in the first one (Ref.1-2). Additionally, he goes more into detail as the three forces that are necessary to allow the residual crescent form the hydrodynamic vortex ring to shrink into a sphere.Further topics are the similarities and analogies between the Lightning Ball formation's theory and the presently undertaken Tokamak-Stellarator-Spheromak fusion reactor experiments. A new theory and its experimental realisation are proposed as to make the shrinking of the hot plasma of reactors into a ball possible by means of the so called long range electromagnetic forces. In this way,the fusion ignition temperature could possibly atteined.