Here we examine, as a proof-of-concept, the potential of modulating the gravitational metric via electromagnetic wave resonance by analyzing potential natural occurrences: graviton-to-photon conversion by magnetars may explain Fast Radio Bursts and analysis of photons generated by inverse Gertsenshtein effect in the magnetosphere of Jovian planets may enable study of high frequency gravity waves from the early Universe. Human civilization has a relatively proficient grasp of controlling electromagnetic phenomena; so, being able to leverage electromagnetic resonance to couple with the spacetime metric for geometrodynamic engineering may enable us to gain a similar level of proficiency in controlling the gravitational force.
Fast Radio Bursts are a strange class of radio astronomy phenomena observed from unknown deep space sources (most are extragalactic in origin). Such fast radio...
The confirmation of gravitational waves back in 2015 has opened an entire new field of observational astronomy—in which the detection and analysis of gravitational waves will enable the study of truly remarkable cosmological processes such as black hole mergers, supermassive black hole binaries, the spacetime structure of black hole event horizons, and even possible wormholes. Gravitational waves may seem exotic, but it is thought that there should be a constitutive low-level gravitational wave background that emanates from the summation of all the activity of black hole binaries throughout the galaxy—like the stochastic sound of a crowded room buzzing with chatter, except in this case space and time are subtly stretching and compressing all around us with a constant flux of spacetime waves.
In an effort to detect and confirm this hypothesized gravitational wave background, The North American Nanohertz...
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