We present the numerical code TAURUS_vap that solves the variation after particle-number projection (VAPNP) equations for symmetry-unrestricted real Bogoliubov quasi-particle states in a Spherical Harmonic Oscillator (SHO) basis. The model space considered is invariant under spatial and isospin rotations but no specific SHO basis is assumed such that the code can carry out either valence-space or no-core calculations
International audienceIn order to solve the A-body Schrödinger equation both accurately and efficien...
International audienceFor the first time, using a unique finite-range interaction (D1M Gogny force),...
Abstract. Background: On the mean-field level, pairing correlations are incorporated through the Bog...
We present the numerical code TAURUS_vap that solves the variation after particle-number projection ...
We present the numerical code $$\textsf {TAURUS}_{\textsf {vap}}$$ that solves the variation after p...
International audienceBackground: Many quantal many-body methods that aim at the description of self...
39 pages, 9 figures - ThéorieWe describe the first version (v1.00) of the code HFBRAD which solves t...
We study the ability of variational approaches based on self-consistent mean-field and beyond-mean-f...
A Bogoliubov quasiparticle formulation of an equation-of-motion phonon method, suited for open-shell...
The transformed harmonic oscillator basis (THO) is derived by a local scaling-point transformation o...
We describe the new version 4.0 of the code hfbtho that solves the nuclear Hartree-Fock-Bogoliubov p...
The scaled harmonic oscillator basis (SHO) is derived by a local scaling-point transformation of the...
In the light of recent experimental developments, increasing attention is devoted to nuclear phenome...
We present a Pfaffian formula for projection and symmetry restoration for wave functions of the gene...
Variation after particle-number restoration is incorporated for the first time into the Hartree-Fock...
International audienceIn order to solve the A-body Schrödinger equation both accurately and efficien...
International audienceFor the first time, using a unique finite-range interaction (D1M Gogny force),...
Abstract. Background: On the mean-field level, pairing correlations are incorporated through the Bog...
We present the numerical code TAURUS_vap that solves the variation after particle-number projection ...
We present the numerical code $$\textsf {TAURUS}_{\textsf {vap}}$$ that solves the variation after p...
International audienceBackground: Many quantal many-body methods that aim at the description of self...
39 pages, 9 figures - ThéorieWe describe the first version (v1.00) of the code HFBRAD which solves t...
We study the ability of variational approaches based on self-consistent mean-field and beyond-mean-f...
A Bogoliubov quasiparticle formulation of an equation-of-motion phonon method, suited for open-shell...
The transformed harmonic oscillator basis (THO) is derived by a local scaling-point transformation o...
We describe the new version 4.0 of the code hfbtho that solves the nuclear Hartree-Fock-Bogoliubov p...
The scaled harmonic oscillator basis (SHO) is derived by a local scaling-point transformation of the...
In the light of recent experimental developments, increasing attention is devoted to nuclear phenome...
We present a Pfaffian formula for projection and symmetry restoration for wave functions of the gene...
Variation after particle-number restoration is incorporated for the first time into the Hartree-Fock...
International audienceIn order to solve the A-body Schrödinger equation both accurately and efficien...
International audienceFor the first time, using a unique finite-range interaction (D1M Gogny force),...
Abstract. Background: On the mean-field level, pairing correlations are incorporated through the Bog...
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