Abstract
The authors have performed a sequence of model-space Brueckner-Hartree-Fock nuclear matter calculations, using the Bonn A, B and C nucleon-nucleon potentials, in search of an optimum choice for the model-space boundary k{sub M}. As a function of k{sub M} and the Fermi momentum k{sub F}, the calculated nuclear matter binding energy forms a smooth concave-upward surface with a minimum in the vicinity of k{sub M}{approx}3 fm{sup -1}. Nuclear matter saturation densities are found to vary negligibly with k{sub M}. The compression modulus may, however, be influenced by the choice of k{sub M}. 10 refs., 4 figs., 1 tab.
Engvik, L;
Hjort-Jensen, M;
Osnes, E;
[1]
Kuo, T T.S.
[2]
- Fysisk Inst., Oslo Univ. (Norway)
- Dept. of Physics, State Univ. of New York, Stony Brook, NY (United States)
Citation Formats
Engvik, L, Hjort-Jensen, M, Osnes, E, and Kuo, T T.S.
Search for an optimum model space for MBHF calculations of nuclear matter.
Norway: N. p.,
1994.
Web.
Engvik, L, Hjort-Jensen, M, Osnes, E, & Kuo, T T.S.
Search for an optimum model space for MBHF calculations of nuclear matter.
Norway.
Engvik, L, Hjort-Jensen, M, Osnes, E, and Kuo, T T.S.
1994.
"Search for an optimum model space for MBHF calculations of nuclear matter."
Norway.
@misc{etde_10102837,
title = {Search for an optimum model space for MBHF calculations of nuclear matter}
author = {Engvik, L, Hjort-Jensen, M, Osnes, E, and Kuo, T T.S.}
abstractNote = {The authors have performed a sequence of model-space Brueckner-Hartree-Fock nuclear matter calculations, using the Bonn A, B and C nucleon-nucleon potentials, in search of an optimum choice for the model-space boundary k{sub M}. As a function of k{sub M} and the Fermi momentum k{sub F}, the calculated nuclear matter binding energy forms a smooth concave-upward surface with a minimum in the vicinity of k{sub M}{approx}3 fm{sup -1}. Nuclear matter saturation densities are found to vary negligibly with k{sub M}. The compression modulus may, however, be influenced by the choice of k{sub M}. 10 refs., 4 figs., 1 tab.}
place = {Norway}
year = {1994}
month = {Sep}
}
title = {Search for an optimum model space for MBHF calculations of nuclear matter}
author = {Engvik, L, Hjort-Jensen, M, Osnes, E, and Kuo, T T.S.}
abstractNote = {The authors have performed a sequence of model-space Brueckner-Hartree-Fock nuclear matter calculations, using the Bonn A, B and C nucleon-nucleon potentials, in search of an optimum choice for the model-space boundary k{sub M}. As a function of k{sub M} and the Fermi momentum k{sub F}, the calculated nuclear matter binding energy forms a smooth concave-upward surface with a minimum in the vicinity of k{sub M}{approx}3 fm{sup -1}. Nuclear matter saturation densities are found to vary negligibly with k{sub M}. The compression modulus may, however, be influenced by the choice of k{sub M}. 10 refs., 4 figs., 1 tab.}
place = {Norway}
year = {1994}
month = {Sep}
}