accepted for publication in Physics Letters BInternational audienceThe role of spherical quantum shells in the competition between fusion and quasi-fission is studied for reactions forming heavy elements. Measurements of fission fragment mass distributions for different reactions leading to similar compound nuclei have been made near the fusion barrier. In general, more quasi-fission is observed for reactions with non-magic nuclei. However, the $^{40}$Ca+$^{208}$Pb reaction is an exception, showing strong evidence for quasi-fission, though both nuclei are doubly magic. Time-dependent Hartree-Fock calculations predict fast equilibration of $N/Z$ in the two fragments early in the collision. This transfer of nucleons breaks the shell effect, c...
Quantum shell effects are known to affect the formation of fragments in nuclear fission. Shell effec...
Systematic studies of heavy-ion induced fission reactions at near-barrier energies carried out in th...
The production of the heaviest elements in fusion-evaporation reactions is substantially limited by ...
AbstractThe role of spherical quantum shells in the competition between fusion and quasi-fission is ...
Invited talk to NSRT12. To be published in Eur. Phys. J. Web of Conf.International audienceThe quasi...
Background: The formation of superheavy elements by fusion of two massive nuclei is severely inhibit...
Background: Quasifission (QF) has gained tremendous importance in heavy-ion nuclear physics research...
Quasifission is a non-equilibrium dynamical process resulting in rapid separation of the dinuclear s...
The quest to synthesise superheavy elements is at the frontier of nuclear physics research. These el...
The conference proceedings will be published by World Scientific PublishingNuclear shell model calcu...
The quasi-fission mechanism hinders fusion of heavy systems because of a mass flow between the react...
Superheavy elements can only be created in the laboratory by the fusion of two massive nuclei. Mass-...
Superheavy elements are primarily formed through heavy ion fusion reactions. Formation of a fully eq...
Background: The formation of superheavy elements (SHEs) by fusion of two massive nuclei is severely ...
Talk presented at this symposiumInternational audienceNew observed phenomena like cluster emission, ...
Quantum shell effects are known to affect the formation of fragments in nuclear fission. Shell effec...
Systematic studies of heavy-ion induced fission reactions at near-barrier energies carried out in th...
The production of the heaviest elements in fusion-evaporation reactions is substantially limited by ...
AbstractThe role of spherical quantum shells in the competition between fusion and quasi-fission is ...
Invited talk to NSRT12. To be published in Eur. Phys. J. Web of Conf.International audienceThe quasi...
Background: The formation of superheavy elements by fusion of two massive nuclei is severely inhibit...
Background: Quasifission (QF) has gained tremendous importance in heavy-ion nuclear physics research...
Quasifission is a non-equilibrium dynamical process resulting in rapid separation of the dinuclear s...
The quest to synthesise superheavy elements is at the frontier of nuclear physics research. These el...
The conference proceedings will be published by World Scientific PublishingNuclear shell model calcu...
The quasi-fission mechanism hinders fusion of heavy systems because of a mass flow between the react...
Superheavy elements can only be created in the laboratory by the fusion of two massive nuclei. Mass-...
Superheavy elements are primarily formed through heavy ion fusion reactions. Formation of a fully eq...
Background: The formation of superheavy elements (SHEs) by fusion of two massive nuclei is severely ...
Talk presented at this symposiumInternational audienceNew observed phenomena like cluster emission, ...
Quantum shell effects are known to affect the formation of fragments in nuclear fission. Shell effec...
Systematic studies of heavy-ion induced fission reactions at near-barrier energies carried out in th...
The production of the heaviest elements in fusion-evaporation reactions is substantially limited by ...