Litcius/Paper detail

Contour prescriptions in string-inspired nonlocal field theories

Luca Buoninfante

2022Physical review. D/Physical review. D.18 citationsDOIOpen Access PDF

Abstract

In quantum field theory, a consistent prescription to define and deform integration contours in the complex energy plane is needed to evaluate loop integrals and compute scattering amplitudes. In some nonlocal field theories, including string field theory, interaction vertices contain transcendental functions of momenta that can diverge along certain complex directions, thus making it impossible to use standard techniques, such as Wick rotation, to perform loop integrals. The aim of this paper is to investigate the viability of several contour prescriptions in the presence of nonlocal vertices. We consider three ``different'' prescriptions and establish their (in)equivalence in local and nonlocal theories. In particular, we prove that all these prescriptions turn out to be equivalent in standard local theories, while this is not the case for nonlocal theories where amplitudes must be defined first in Euclidean space, and then analytically continued to Minkowski. We work at one-loop level and focus on the bubble diagram. In addition to proving general results for a large class of nonlocal theories, we show explicit calculations in a string-inspired nonlocal scalar model.

Topics & Concepts

Minkowski spaceScalar (mathematics)Scattering amplitudeQuantum field theoryPhysicsScalar fieldField (mathematics)MathematicsTheoretical physicsClassical mechanicsAmplitudeMathematical physicsQuantum mechanicsPure mathematicsGeometryBlack Holes and Theoretical PhysicsCosmology and Gravitation TheoriesNoncommutative and Quantum Gravity Theories