Add to ORKGWe propose a new theoretical approach to ground and low-energy excited states of nuclei extending the nuclear mean-field theory. It consists of three steps: stochastic preparation of many Slater determinants, the parity and angular momentum projection, and diagonalization of the generalized eigenvalue problems. The Slater determinants are constructed in the three-dimensional Cartesian coordinate representation capable of describing arbitrary shape of nuclei. We examine feasibility and usefulness of the method by applying the method with the BKN interaction to light 4N-nuclei, 12C, 16O, and 20Ne. We discuss difficulties of keeping linear independence for basis states projected on good parity and angular momentum and present a possible prescr...
Ab initio no core methods have become major tools for understanding the properties of light nuclei b...
Realistic nucleon-nucleon (NN) interactions, derived within the framework of meson theory or more re...
The configuration interaction (CI) approach to solving the nuclear many-body problem, also known as ...
We propose a new stochastic method to describe low-lying excited states of finite nuclei superposing...
The interacting boson model (IBM) Hamiltonian is determined microscopically for general cases of low...
The configuration interaction (CI) approach to solving the nuclear many-body problem, also known as ...
International audienceBackground: Ab initio many-body methods whose numerical cost scales polynomial...
A self-consistent calculation with variation after parity projection is proposed to study both groun...
Starting from self-consistent mean-field models, we discuss how to include correlations from fluctua...
In this work, we introduce a new approach which is meant to be a first step towards complete self-co...
We study the ability of variational approaches based on self-consistent mean-field and beyond-mean-f...
© 2018 American Physical Society. Background: Ab initio many-body methods whose numerical cost scale...
We discuss the systematics of the 2+ excitation energy and the transition probability from this 2+ t...
Beyond mean-field methods based on restoration of symmetries and configuration mixing by the generat...
A variational method for the self-consistent solution of the nuclear many body problem with the incl...
Ab initio no core methods have become major tools for understanding the properties of light nuclei b...
Realistic nucleon-nucleon (NN) interactions, derived within the framework of meson theory or more re...
The configuration interaction (CI) approach to solving the nuclear many-body problem, also known as ...
We propose a new stochastic method to describe low-lying excited states of finite nuclei superposing...
The interacting boson model (IBM) Hamiltonian is determined microscopically for general cases of low...
The configuration interaction (CI) approach to solving the nuclear many-body problem, also known as ...
International audienceBackground: Ab initio many-body methods whose numerical cost scales polynomial...
A self-consistent calculation with variation after parity projection is proposed to study both groun...
Starting from self-consistent mean-field models, we discuss how to include correlations from fluctua...
In this work, we introduce a new approach which is meant to be a first step towards complete self-co...
We study the ability of variational approaches based on self-consistent mean-field and beyond-mean-f...
© 2018 American Physical Society. Background: Ab initio many-body methods whose numerical cost scale...
We discuss the systematics of the 2+ excitation energy and the transition probability from this 2+ t...
Beyond mean-field methods based on restoration of symmetries and configuration mixing by the generat...
A variational method for the self-consistent solution of the nuclear many body problem with the incl...
Ab initio no core methods have become major tools for understanding the properties of light nuclei b...
Realistic nucleon-nucleon (NN) interactions, derived within the framework of meson theory or more re...
The configuration interaction (CI) approach to solving the nuclear many-body problem, also known as ...