Quantum Monte Carlo calculations of neutron matter with chiral three-body forces

Chiral effective field theory (EFT) enables a systematic description of low-energy hadronic interactions with controlled theoretical uncertainties. For strongly interacting systems, quantum Monte Carlo (QMC) methods provide some of the most accurate solutions, but they require as input local potenti...

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Veröffentlicht in:	Physical review. C 2016-02, Vol.93 (2), Article 024305
Hauptverfasser:	Tews, I., Gandolfi, S., Gezerlis, A., Schwenk, A.
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Sprache:	eng
Schlagworte:	atomic and nuclear physics NUCLEAR PHYSICS AND RADIATION PHYSICS
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creator	Tews, I. Gandolfi, S. Gezerlis, A. Schwenk, A.
description	Chiral effective field theory (EFT) enables a systematic description of low-energy hadronic interactions with controlled theoretical uncertainties. For strongly interacting systems, quantum Monte Carlo (QMC) methods provide some of the most accurate solutions, but they require as input local potentials. We have recently constructed local chiral nucleon-nucleon (NN) interactions up to next-to-next-to-leading order (N2LO). Chiral EFT naturally predicts consistent many-body forces. In this paper, we consider the leading chiral three-nucleon (3N) interactions in local form. These are included in auxiliary field diffusion Monte Carlo (AFDMC) simulations. We present results for the equation of state of neutron matter and for the energies and radii of neutron drops. Specifically, we study the regulator dependence at the Hartree-Fock level and in AFDMC and find that present local regulators lead to less repulsion from 3N forces compared to the usual nonlocal regulators.
doi_str_mv	10.1103/PhysRevC.93.024305
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title	Quantum Monte Carlo calculations of neutron matter with chiral three-body forces
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