We examine the high energy (Regge) limit of gravitational scattering using a Wilson line approach previously used in the context of non-Abelian gauge theories. Our aim is to clarify the nature of the Reggeization of the graviton and the interplay between this Reggeization and the so-called eikonal phase which determines the spectrum of gravitational bound states. Furthermore, we discuss finite corrections to this picture. Our results are of relevance to various supergravity theories, and also help to clarify the relationship between gauge and gravity theories. © 2014 American Physical Society
Abstract Wilson lines capture important features of scattering amplitudes, for example soft effects ...
Any gravitational scattering amplitude takes a remarkably simple factorized form at tree level in mu...
We develop an approach to the high-energy limit of gauge theories based on the universal properties ...
We examine the high energy (Regge) limit of gravitational scattering using a Wilson line approach pr...
We examine the Regge (high energy) limit of 4-point scattering in both QCD and gravity, using recent...
The high energy behavior (in the Regge limit) of nonabelian gauge theories is reviewed. After a gene...
We investigate features of perturbative gravity and supergravity by studying scattering in the ultra...
In this second part of our attempt to construct a unitary high-energy description of a spontaneously...
We investigate features of perturbative gravity and supergravity by studying scattering in the ultra...
The scattering amplitudes in QCD and gravity at high energies are described in terms of reggeized gl...
We derive the limiting form of graviton radiation in gravitational scattering at transplanckian ener...
We consider Riemann–Cartan gravity with minimal Palatini action, which is classically equivalent to ...
The high energy scattering in QCD and gravity can be described in terms of reggeized gluons and grav...
Abstract Any gravitational scattering amplitude takes a remarkably simple factorized form at tree le...
The high energy scattering in QCD and gravity can be described in terms of reggeized gluons and grav...
Abstract Wilson lines capture important features of scattering amplitudes, for example soft effects ...
Any gravitational scattering amplitude takes a remarkably simple factorized form at tree level in mu...
We develop an approach to the high-energy limit of gauge theories based on the universal properties ...
We examine the high energy (Regge) limit of gravitational scattering using a Wilson line approach pr...
We examine the Regge (high energy) limit of 4-point scattering in both QCD and gravity, using recent...
The high energy behavior (in the Regge limit) of nonabelian gauge theories is reviewed. After a gene...
We investigate features of perturbative gravity and supergravity by studying scattering in the ultra...
In this second part of our attempt to construct a unitary high-energy description of a spontaneously...
We investigate features of perturbative gravity and supergravity by studying scattering in the ultra...
The scattering amplitudes in QCD and gravity at high energies are described in terms of reggeized gl...
We derive the limiting form of graviton radiation in gravitational scattering at transplanckian ener...
We consider Riemann–Cartan gravity with minimal Palatini action, which is classically equivalent to ...
The high energy scattering in QCD and gravity can be described in terms of reggeized gluons and grav...
Abstract Any gravitational scattering amplitude takes a remarkably simple factorized form at tree le...
The high energy scattering in QCD and gravity can be described in terms of reggeized gluons and grav...
Abstract Wilson lines capture important features of scattering amplitudes, for example soft effects ...
Any gravitational scattering amplitude takes a remarkably simple factorized form at tree level in mu...
We develop an approach to the high-energy limit of gauge theories based on the universal properties ...