Gravitoelectromagnetic Communications Model for under Extremely Low Frequency Interactions between Distant Cosmic Structures

Classical electromagnetic waves with frequencies below 3Hz, referred as Under Extremely Low Frequency (UELF) waves, can be radiated by rotating cosmic structures with an associated magnetic field, like planets, stars, pulsars and galaxies. Considering the extreme time scales that characterize UELF waves, which can be as long as billions of years, the associated wavelengths are so large that long range interactions could be produced between extremely distant cosmic structures that could be billions of light years apart. The extreme dimensions, masses and speeds of the radiating cosmic structures, on the other hand, presume that the distant interaction between the studied cosmic objects may not be electromagnetic only but also gravitational (in spite of the humongous distances involved), so the study of UELF waves needs to consider both effects combined. Gravitational wave theory is the leading line of work trying to explain long range interactions due to gravity forces; yet, the present working paper attains to the gravitomagnetic field theory to build a novel communications model that integrates classical forces produced by moving electric charges and masses into a single framework. The proposed model allows an integral approach to investigate long range interactions between the explained distant cosmic structures, and invites to reflect and discuss about the nature and implications of UELF radiation.