Litcius/Paper detail

“Renormalization-group-invariant effective field theory” for few-nucleon systems is cutoff dependent

A. M. Gasparyan, E. Epelbaum

2023Physical review. C21 citationsDOI

Abstract

We consider nucleon-nucleon scattering using the formulation of chiral effective field theory which is claimed to be renormalization group invariant. The cornerstone of this framework is the existence of a well-defined infinite-cutoff limit for the scattering amplitude at each order of the expansion, which should not depend on a particular regulator form. Focusing on the ${}^{3}{P}_{0}$ partial wave as a representative example, we show that this requirement can in general not be fulfilled beyond the leading order, in spite of the perturbative treatment of subleading contributions to the amplitude. Several previous studies along these lines, including the next-to-leading order calculation by B. Long and C. J. Yang [Phys. Rev. C 84, 057001 (2011)] and a toy model example with singular long-range potentials by B. Long and U. van Kolck [Ann. Phys. 323, 1304 (2008)], are critically reviewed and scrutinized in detail.

Topics & Concepts

PhysicsCutoffRenormalization groupRenormalizationScattering amplitudeMathematical physicsFunctional renormalization groupNucleonAmplitudeQuantum electrodynamicsInvariant (physics)ScatteringEffective field theoryQuantum mechanicsParticle physicsNuclear physics research studiesQuantum Chromodynamics and Particle InteractionsParticle physics theoretical and experimental studies