Stringy Scaling

Sheng-Hong Lai; Jen-Chi Lee; Yi Yang

arXiv:2408.12612·hep-th·August 26, 2024

Stringy Scaling

Sheng-Hong Lai, Jen-Chi Lee, Yi Yang

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Open Access

TL;DR

This paper uncovers a universal stringy scaling law applicable to all hard and certain Regge string scattering amplitudes across all loop orders, revealing a reduction in independent kinematic variables.

Contribution

It introduces a general stringy scaling behavior for all n-point hard and specific Regge string scattering amplitudes at all loop levels, highlighting a reduction in kinematic complexity.

Findings

01

Universal scaling law for string scattering amplitudes

02

Reduction in independent kinematic variables by dim M

03

Applicable to all loop orders

Abstract

We discover a general stringy scaling behavior for 1. All n-point hard string scattering amplitudes (HSSA) and 2. A class of n-point Regge string scattering amplitudes (RSSA) to all string loop orders. The number of independent kinematics variables is found to be reduced by dim M.

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Taxonomy

TopicsBlack Holes and Theoretical Physics · Quantum Chromodynamics and Particle Interactions · Geometric and Algebraic Topology