Superstrongly interacting gravitons: low-energy quantum gravity and vacuum effects

Abstract

A brief review of the consequences of the hypothesis about the existence of a background of superstrong interacting gravitons is given. Gravity is seen as a shielding effect in a sea of low-energy gravitons, and Newton's constant can be calculated as a function of the background temperature. At very small distances, the phenomenon of asymptotic freedom arises. Restrictions on the geometric language and the ban on the existence of black holes are considered. Additional deceleration of massive bodies occurs due to forehead and backhead collisions with gravitons. Scattering of photons by background gravitons leads to a redshift of distant objects, their additional darkening and the appearance of a background of scattered photons. These effects could revolutionize cosmology because they don't need dark energy, the Big Bang, etc. to explain observations.