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Quantum Monte Carlo Calculations with Chiral Effective Field Theory Interactions

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arxiv 1303.6243 v2 pith:7SFXM2U4 submitted 2013-03-25 nucl-th cond-mat.quant-gashep-phnucl-ex

Quantum Monte Carlo Calculations with Chiral Effective Field Theory Interactions

classification nucl-th cond-mat.quant-gashep-phnucl-ex
keywords calculationsinteractionschiralcarlomonteorderresultsafdmc
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We present the first quantum Monte Carlo (QMC) calculations with chiral effective field theory (EFT) interactions. To achieve this, we remove all sources of nonlocality, which hamper the inclusion in QMC calculations, in nuclear forces to next-to-next-to-leading order. We perform auxiliary-field diffusion Monte Carlo (AFDMC) calculations for the neutron matter energy up to saturation density based on local leading-order, next-to-leading order, and next-to-next-to-leading order nucleon-nucleon interactions. Our results exhibit a systematic order-by-order convergence in chiral EFT and provide nonperturbative benchmarks with theoretical uncertainties. For the softer interactions, perturbative calculations are in excellent agreement with the AFDMC results. This work paves the way for QMC calculations with systematic chiral EFT interactions for nuclei and nuclear matter, for testing the perturbativeness of different orders, and allows for matching to lattice QCD results by varying the pion mass.

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  1. Short-range correlations in nuclei

    nucl-ex 2026-05 unverdicted novelty 2.0

    Short-range correlated pairs account for roughly 20% of nucleons in any nucleus and nearly all high-momentum nucleons, originating from the nucleon-nucleon tensor force.