The Fundamental Nuclear Plasma Fusion Equation

Nuclear fusion represents the border area (nuclear plasma) between the material world (infusion of Deuterium) and the energy world (microwave heating). Existing theories to describe these material-energy interactions are far from the required necessary theoretical physics to realize stable nuclear fusion processes inside confinements like the Tokamak. The only possibility to describe these complex interaction processes correctly is to develop a new theory in physics which describes the electro-magnetic gravitational force density interactions (expressed in N/m3 ) (equation 8) with the mechanical force density interactions (expressed in N/m3 ) being presented by the Navier-Stokes equation for compressible nuclear plasmas [41]. The new theory, describing electro-magnetic-gravitational-acceleration force density interactions (expressed in N/m3), has been discussed at astronomical levels: Gravitational RedShift, Black Holes and Dark Matter and at sub-atomic levels: The absorption and emission of light at sub-atomic levels in concentric spheres by an atom at discrete energy levels. Evidence will be demonstrated about the correctness of this new electro-dynamic theory which represents the only theory which connects electro-dynamics in a correct way with plasma-dynamics. In general, the gravitational (acceleration) force densities, originating from rotation and linear accelerations, are being ignored but with nuclear fusion processes these gravitational (acceleration) forces become fundamental and are necessary to develop a stable nuclear fusion process.