Nuclear pairing from two-body microscopic forces: analysis of the Cooper pair wavefunctions

P. Finelli; S. Maurizio; J. W. Holt

doi:10.1051/epjconf/20159504021

All issues

Volume 95 (2015)

EPJ Web of Conferences, 95 (2015) 04021

Abstract

Open Access

Issue		EPJ Web of Conferences Volume 95, 2015 3^rd International Conference on New Frontiers in Physics


Article Number		04021
Number of page(s)		8
Section		Parallel
DOI		https://doi.org/10.1051/epjconf/20159504021
Published online		29 May 2015

EPJ Web of Conferences 95, 04021 (2015)
https://doi.org/10.1051/epjconf/20159504021

Nuclear pairing from two-body microscopic forces: analysis of the Cooper pair wavefunctions

P. Finelli¹^a, S. Maurizio² and J. W. Holt³

¹ Department of Physics and Astronomy, University of Bologna (Italy) and INFN, Bologna section, (Italy)
² Albert Einstein Center for Fundamental Physics, Institute for Theoretical Physics, Bern (Switzerland)
³ Department of Physics, University of Washington, Seattle (USA)

^a e-mail: paolo.finelli@bo.infn.it

Published online: 29 May 2015

Abstract

In a recent paper [1] we studied the behavior of the pairing gaps Δ_F as a function of the Fermi momentum k_F for neutron and nuclear matter in all relevant angular momentum channels where superfluidity is believed to naturally emerge. The calculations employed realistic chiral nucleon-nucleon potentials [2, 3] with the inclusion of three-body forces and self-energy effects. In this contribution, after a detailed description of the numerical method we employed in the solution of the BCS equations, we will show a preliminary analysis of the Cooper pair wavefunctions.

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