Add to ORKGWe perform Shell Model Monte Carlo calculations of selected N=Z pf-shell nuclei with a schematic hamiltonian containing isovector pairing and quadrupole-quadrupole interactions. Compared to realistic interactions, this hamiltonian does not give rise to the SMMC ``sign problem'', while at the same time resembles essential features of the realistic interactions. We study pairing correlations in the ground states of N=Z nuclei and investigate the thermal dependence of selected observables for the odd-odd nucleus Co54 and the even-even nuclei Zn60 and Ni60. Comparison of the present results to those with the realistic KB3 interaction indicates a transition with increasing temperature from a phase of isovector pairing dominance to one where isos...
Within the particle-number conserving highly truncated diagonalization approach (amounting to a seve...
Within the particle-number conserving highly truncated diagonalization approach (amounting to a seve...
AbstractThe isoscalar proton–neutron pairing and isovector pairing, including both isovector proton–...
We perform Shell Model Monte Carlo calculations to study pair correlations in the ground states of $...
The pairing and structure of nuclei near N = Z is described in the framework of shell-model Monte Ca...
The influence of the isoscalar and isovector L=0 pairing components of the effective nucleon-nucleon...
The pair content and structure of nuclei near N = Z are described in the frwnework of shell-model Mo...
We present shell model Monte Carlo calculations for nuclei in the full major shell 50–82 for both pr...
The structures of odd-odd $N=Z$ nuclei in the lower \emph{fp} shell have been investigated with a ne...
AbstractWe propose a procedure to determine the effective nuclear shell-model Hamiltonian in a trunc...
We calculate the ground-state properties of well deformed, even-even N = Z nuclei in the region betw...
A simple model based on the group SO(5) suggests that both the like-particle and neutron-proton comp...
We calculate the ground-state properties of well deformed, even-even N = Z nuclei in the region betw...
We calculate the ground-state properties of well deformed, even-even N = Z nuclei in the region betw...
We demonstrate the feasibility of realistic shell-model Monte Carlo (SMMC) calculations spanning mul...
Within the particle-number conserving highly truncated diagonalization approach (amounting to a seve...
Within the particle-number conserving highly truncated diagonalization approach (amounting to a seve...
AbstractThe isoscalar proton–neutron pairing and isovector pairing, including both isovector proton–...
We perform Shell Model Monte Carlo calculations to study pair correlations in the ground states of $...
The pairing and structure of nuclei near N = Z is described in the framework of shell-model Monte Ca...
The influence of the isoscalar and isovector L=0 pairing components of the effective nucleon-nucleon...
The pair content and structure of nuclei near N = Z are described in the frwnework of shell-model Mo...
We present shell model Monte Carlo calculations for nuclei in the full major shell 50–82 for both pr...
The structures of odd-odd $N=Z$ nuclei in the lower \emph{fp} shell have been investigated with a ne...
AbstractWe propose a procedure to determine the effective nuclear shell-model Hamiltonian in a trunc...
We calculate the ground-state properties of well deformed, even-even N = Z nuclei in the region betw...
A simple model based on the group SO(5) suggests that both the like-particle and neutron-proton comp...
We calculate the ground-state properties of well deformed, even-even N = Z nuclei in the region betw...
We calculate the ground-state properties of well deformed, even-even N = Z nuclei in the region betw...
We demonstrate the feasibility of realistic shell-model Monte Carlo (SMMC) calculations spanning mul...
Within the particle-number conserving highly truncated diagonalization approach (amounting to a seve...
Within the particle-number conserving highly truncated diagonalization approach (amounting to a seve...
AbstractThe isoscalar proton–neutron pairing and isovector pairing, including both isovector proton–...