Theories for New Energy Sources Based on Celestial Vortex Modeling

Recent observations of astrophysical plasma jets emanating from the galactic-core of Galaxy M87 underscore the importance and intensity of magnetic fields in powerful celestial vortices. Based on standard electromagnetic theory, this naturally indicates the presence of potent electric field within these vortices. Any new method of generating powerful electromagnetic field is worthy of consideration for humanities’ power and energy needs. As astrophysical plasma jets are also known to be among the most potent forms of energy in the observed Universe, it seems well-worthy of consideration as to how humanity may be able to simulate them in a scaled-down version that could serve as an alternative green energy source. This paper explores how these energetic processes might be simulated and scaled to humanities’ needs based on (1) postulates around the physics / energy sources of celestial vortices; (2) approximate characteristics of the electric field charge-distribution, convective currents, and spatial orientation within celestial vortices; (3) characteristics of the magnetic field spawned by the electric field; and (4) estimates of density and rotational velocity of celestial vortices based on proposed stellar-formation vortex theory and computational modeling.