Ab-initio self-consistent Gorkov-Green's function calculations of semi-magic nuclei - I. Formalism at second order with a two-nucleon interaction

TL;DR

This paper develops a formalism for ab-initio self-consistent Green's function calculations of semi-magic nuclei, explicitly incorporating pairing correlations at second order with two-nucleon interactions.

Contribution

It introduces a detailed formalism for second-order Gorkov-Green's function calculations in nuclei, enabling future applications with advanced nuclear interactions.

Findings

Formalism for second-order Gorkov-Green's function calculations established.

Framework for including pairing correlations in microscopic nuclear calculations.

Preparation for future applications with three-nucleon interactions.

Abstract

An ab-initio calculation scheme for finite nuclei based on self-consistent Green's functions in the Gorkov formalism is developed. It aims at describing properties of doubly-magic and semi-magic nuclei employing state-of-the-art microscopic nuclear interactions and explicitly treating pairing correlations through the breaking of U(1) symmetry associated with particle number conservation. The present paper introduces the formalism, necessary to undertake applications at (self-consistent) second-order using two-nucleon interactions, in a detailed and self-contained fashion. First applications of such a scheme will be reported soon in a forthcoming publication. Future works will extend the present scheme to include three-nucleon interactions and implement more advanced truncation schemes.