I fisici Lawrence Krauss e Frank Wilczek, rispettivamente dell’Arizona State University e dell’Australian National University, hanno pubblicato un lavoro in cui essi propongono una nuovo approccio sulla possibilità di quantizzare la forza di gravità misurando la polarizzazione della radiazione cosmica di fondo. Secondo gli scienziati, questo metodo potrebbe portare ad una connessione tra la radiazione cosmica di fondo e le onde gravitazionali causate dall’inflazione cosmica durante le epoche primordiali della storia cosmica.
Physicists, as most are aware, have been stymied in their efforts to discover a way to unify quantum mechanics and gravity, most scientists in the field believe there is likely a gravity particle they call it a graviton, that carries the force known as gravity. No one of course has ever seen one, or been able to prove it exists. This is because, they say, of how weak it is compared to the other forces, such as electromagnetism, to be able to see it, some have suggested, would require a device so massive that it would collapse in on itself into a black hole. For this reason, some researchers have suggested that we will never be able to see it.
In their paper, Krauss and Wilczek suggest that it might not be necessary to see it, because there might be a way to infer its existence by measuring the CMB.
Their idea is that in the early Universe, just after the Big Bang, as inflation was occurring, gravitational waves should have been created which in turn would have caused photons present in the CMB to scatter in a certain pattern. Finding that pattern would mean finding evidence of a particle that was carrying the gravitational force, the graviton. And if evidence for the existence of a graviton could be found, then physicists would finally have their “universal theory”. They add that they believe that dimensional analysis could provide a link between those early gravitational waves and Planck’s constant, which is of course used in quantum mechanics. There are a couple of issues with the new theory, the first is that technology does not yet exist to measure the CMB in a way that would allow scientists to detect those early gravitational waves and another is proving that any polarization found in the CMB can indeed be attributable to gravitational waves and not some other mechanism, force or process.