Monte Carlo approach to nuclei and nuclear matter

Stefano Fantoni; Stefano Gandolfi; Alexey Yu. Illarionov; Kevin E.; Schmidt; Francesco Pederiva

arXiv:0807.5043·nucl-th·November 26, 2008

Monte Carlo approach to nuclei and nuclear matter

Stefano Fantoni, Stefano Gandolfi, Alexey Yu. Illarionov, Kevin E., Schmidt, Francesco Pederiva

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TL;DR

This paper applies the Auxiliary Field Diffusion Monte Carlo method to compute the equation of state and superfluid gap in neutron matter and nuclear matter, providing insights into nuclear interactions and phases.

Contribution

It introduces recent applications of AFDMC to calculate properties of neutron and nuclear matter with realistic interactions.

Findings

01

EOS for pure neutron matter in normal and BCS phases

02

Superfluid gap in low-density neutron matter

03

Preliminary EOS results for isospin-asymmetric nuclear matter

Abstract

We report on the most recent applications of the Auxiliary Field Diffusion Monte Carlo (AFDMC) method. The equation of state (EOS) for pure neutron matter in both normal and BCS phase and the superfluid gap in the low--density regime are computed, using a realistic Hamiltonian containing the Argonne AV8' plus Urbana IX three--nucleon interaction. Preliminary results for the EOS of isospin--asymmetric nuclear matter are also presented.

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