ProjectStruktur schwach gebundener Atomkerne und der Übergang zur Kernmaterie
Basic data
Title:
Struktur schwach gebundener Atomkerne und der Übergang zur Kernmaterie
Duration:
20/02/2007 to 30/04/2012
Abstract / short description:
Exploring the structure of exotic nuclear systems, which are outside the valley of stability on the basis of realistic models of the NN interaction
How to explain the creation and abundancies of the various nuclear isotopes. This is one of the main challenges of nuclear structure physics in cooperation with astrophysics and cosmology. This project develops methods and calculation tools to describe weakly bound nuclei and quasi nuclear structure embedded in the crust of neutron stars.
How to explain the creation and abundancies of the various nuclear isotopes. This is one of the main challenges of nuclear structure physics in cooperation with astrophysics and cosmology. This project develops methods and calculation tools to describe weakly bound nuclei and quasi nuclear structure embedded in the crust of neutron stars.
Keywords:
Kernstruktur
nuclear matter
Kernmaterie
many-body theory
Vielteilchentheorie
Quantentheorie
Involved staff
Managers
Faculty of Science
University of Tübingen
University of Tübingen
Institute for Theoretical Physics (ITP)
Department of Physics, Faculty of Science
Department of Physics, Faculty of Science
SFB 382 - Verfahren und Algorithmen zur Simulation physikalischer Prozesse auf Höchstleistungsrechnern
Collaborative research centers and transregios
Collaborative research centers and transregios
Other staff
Dalen, Eric
formerly Universität Tübingen
Local organizational units
Institute for Theoretical Physics (ITP)
Department of Physics
Faculty of Science
Faculty of Science
Funders
Bonn, Nordrhein-Westfalen, Germany
Bonn, Nordrhein-Westfalen, Germany
Cooperations
since 1981
Study of correlation effects in quantum many-body systems of fermions beyond the mean field (Hartree-Fock) approximation. Various methods have been investigated for the example of nuclear many-body systems, infinite matter as well as finite nuclei. This includes the methods of self-consistent Greensfunctions (SCGF), hole-line…