This paper formalises the central mechanism of the Info-Magneto-Electrostatic (IME) Cosmos: three fundamental forces whose interplay generates and governs every tier of physical reality. The model treats space not as an empty vacuum but as a tangible, compressible fluid, the celestial plenum, within which the three forces originate, propagate and interact. The electrostatic force is plasmic, a dense and elastic potential that knots into matter and is described by the physics of plasma, a state of which the visible cosmos is overwhelmingly composed. The magnetic force is sub-plasmic, a continuous field of rotating flux that lies one level beneath the plasma and organises it. The information force is not directly detectable by any instrument, yet its effects and patterns are everywhere visible: it is an instantaneous, non-local geometric grid of rhombic dodecahedral space cells, the coordinate substrate on which the other two forces act. Interaction between bodies proceeds in three simultaneous channels that map one to one onto the three forces: a Coulomb channel of collision and charge exchange at the base of matter, a magnetic channel of angular-momentum coupling, and an information channel of non-local transfer carried by the grid rather than by any signal moving through the medium. A central result reinterprets the magnetic pinch as the cause of planarity at every scale: the magnetic dipole of the Sun flattens the planets into a common orbital plane, the galactic dipole holds the galaxy as a thin, rotating disc, and a cosmic-scale pinch flattens large-scale structures. Without such an organising force, matter would drift in Brownian disorder rather than settle into the ordered, layered cosmos that we observe. Mass is shown to carry two distinct compositions: an inertial core anchored at the proton, which carries momentum, and a fluidic modulation anchored at the electron, which sets gravity. A dual-anchor calibration fixes a base mass of approximately 0.0968 eV/c2 that satisfies the Planck-plus-baryon-acoustic-oscillation bound on the sum of neutrino masses. The same architecture repeats as an embedded-vortex network of nodes, from a cosmic centre through the galactic node at Sagittarius A* to the solar node at the Sun and the planetary nodes beneath it, in a manner structurally parallel to a brain or a computing network, a parallel now supported by quantitative cosmology. The paper labels its assumptions, conjectures and open problems explicitly, and proposes falsifiable tests. It positions itself as a heterodox synthesis that extends the plasma-cosmology tradition of Alfven, Bennett and Peratt with an information-centric ontology rooted in the classical cosmologies of India, Greece and Egypt.
Satinder Singh Malik (Sun,) studied this question.
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: