Description
Chairperson: Mr. Florent Scarpa
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M. Raphaël-David Lasseri (Institut de Physique Nucléaire d'Orsay)30/05/2017 11:20TalkThe understanding of the structural properties of nuclei is a long-standing issue. Indeed, the underlying complexity of a many-body fermionic system in strong interaction, led to the arising of wide panel of phenomena and behavior. Thus an universal treatment of such properties is particularly challenging. We'll give a short overview of the usual techniques used to describe nuclear...Aller à la page de la contribution
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M. Petar Marevic (IPNO/CEA)30/05/2017 11:40TalkAtomic nucleus is a quantum many-body system whose properties are determined by a number of nucleons and the interaction between them. The comprehensive theoretical framework for the description of nuclear systems should therefore be able to account for more than 3000 observed and thousands still unobserved nuclei, including their ground-state, excited-state and reaction properties. It turns...Aller à la page de la contribution
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M. Mehdi DRISSI (CEA/SPhN)30/05/2017 12:00TalkThrough the study of neutron matter, we emphasis the importance of adapting the many-body techniques to the way the nuclear interaction derived from an Effective Field Theory have been renormalized.Aller à la page de la contribution
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M. Pierre Arthuis (CEA/DRF/IRFU/SPhN)30/05/2017 12:20TalkIn the recent years, so-called *ab initio* methods have know a resurgence of interest among the nuclear theory community. Recent investigations [Tichai et al., 2016] have shown that Many-Body Perturbation Theory (MBPT), when using Hamiltonians evolved through the Similarity Renormalization Group method, could provide results competing with more demanding techniques like Self-Consistent Green's...Aller à la page de la contribution