Interpretation of Quantum Field Theories with a Minimal Length Scale
S. Hossenfelder
TL;DR
This paper explores how introducing a minimal length scale into quantum field theories can model quantum gravity effects and analyzes its impact on particle scattering processes.
Contribution
It provides an interpretation of minimal length scale modifications in quantum field theories and discusses their implications for scattering phenomena.
Findings
Minimal length scale alters scattering amplitudes
Provides a phenomenological link to quantum gravity
Offers a new perspective on quantum field theory modifications
Abstract
It has been proposed that the incorporation of an observer independent minimal length scale into the quantum field theories of the standard model effectively describes phenomenological aspects of quantum gravity. The aim of this paper is to interpret this description and its implications for scattering processes.
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