Similarity Renormalization Group for Few-Body Systems

R.J. Furnstahl

arXiv:0711.3846·nucl-th·January 16, 2009

Similarity Renormalization Group for Few-Body Systems

R.J. Furnstahl

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TL;DR

This paper discusses the use of similarity renormalization group flow equations to evolve internucleon interactions, resulting in softer potentials that improve the efficiency of variational calculations in few-body nuclear systems.

Contribution

It introduces a method to generate soft potentials through flow equations, enhancing computational convergence in few-body nuclear physics.

Findings

01

Flow-evolved internucleon interactions lead to faster variational convergence.

02

Soft potentials reduce computational complexity in few-body calculations.

03

Flow equations effectively soften nuclear potentials.

Abstract

Internucleon interactions evolved via flow equations yield soft potentials that lead to rapid variational convergence in few-body systems.

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