Spinning particle as Kerr’s black hole: To the problem of unification of gravity with particle physics

We show that the rotating black hole solutions bring new effects in the particle physics, allowing to unite gravity with quantum theory. Due to extremely large spin/mass ratio (for typical spinning particles), the rotating Kerr black hole solution deforms space topologically on the Compton scale, which increases extremely effective influence gravity on quantum processes, and gravity starts to collaborate with quantum processes, instead of confront them. In particular, Kerr’s gravity defines several important structures and parameters of electron, in particular, its non-perturbative shape, the associated Wilson loop, features of the used supersymmetry and specials of the stringy system.

Comments on the paper “The zitterbewegung region”

In light of a recent paper, we revisit the Compton scale region and point out that in this region there is stochastic behavior which can be modeled by Ito’s method. All these lead to a QCD and quark-like behavior completely consistent with known empirical facts.

The zitterbewegung region

This paper deals with a precise description of the region of zitterbewegung below the Compton scale and the stochastic nature associated with it. We endeavor to delineate this particular region by means of Ito’s calculus and instigate certain features that are in sharp contrast with conventional physics. Interestingly, our work substantiates that the zitterbewegung region represents a pre-space–time region and from therein emerges the notion of our conventional space–time. Interestingly, this unique region engenders the relativistic and quantum mechanical aspects of space–time.

2-state asymmetries: Matter–antimatter and other effects

This paper is based on the framework of a two-dimensional universe considering it to be a lattice structure. The Ising model has been used to show that there is a spontaneous phase transition from the Planck scale to the Compton scale. Also, a mean field theoretic approach has been considered to delve into the statistical properties of such a lattice-structured universe.