High energy scattering in Einstein-Cartan gravity

TL;DR

This paper develops an effective theory for high-energy gravitating particle scattering in Einstein-Cartan gravity, incorporating collective excitations analogous to reggeons, inspired by QCD reggeon field theory.

Contribution

It introduces a novel effective action for Einstein-Cartan gravity that models high-energy scattering using reggeon-like collective excitations.

Findings

Proposes an effective two-dimensional model for high-energy scattering.

Establishes an analogy between gravitational interactions and QCD reggeon theory.

Suggests a new framework for analyzing graviton interactions at high energies.

Abstract

We consider Riemann-Cartan gravity with minimal Palatini action, which is classically equivalent to Einstein gravity. Following the ideas of L.Lipatov \cite{LipGrav} we propose the effective action for this theory aimed at the description of the high-energy scattering of gravitating particles in the multi - Regge kinematics. For that purpose we add to the Palatini action the new terms responsible for the interaction of gravitational quanta with certain collective excitations that replace exchange by multiple gravitational excitations. We propose the heuristic explanation of its particular form based on an analogy to the reggeon field theory of QCD. We argue that Regge kinematics assumes the appearance of an effective two - dimensional model describing the high - energy scattering similar to that of QCD. Such a model may be formulated in a way leading to our final effective theory, which contains interaction between the ordinary quanta of spin connection and vielbein with their effective counterparts that pretend to the role of the gravitational reggeons.