Add to ORKGWe briefly introduce the current status and progress in the field of radioactive ion beam physics and the study of super-heavy nuclei. Some important problems and research directions are outlined, such as the sub-barrier fusion reaction, the direct reaction at Fermi energy and high energies, the property of nuclei at drip-lines, new magic numbers and new collective motion modes for unstable nuclei and the synthesis and study of the super-heavy nuclei.Physics, NuclearPhysics, Particles & FieldsSCI(E)1ARTICLE1-73
First-generation radioactive ion-beam facilities have already been in operation for some time. Advan...
First-generation radioactive ion-beam facilities have already been in operation for some time. Advan...
First-generation radioactive ion-beam facilities have already been in operation for some time. Advan...
The latest progress made in the field of radioactive ion beam physics is outlined and the key proble...
State-of-the-art survey of topics in nuclear physics by leading practitioners in the field. Major fo...
Some recent experiments at the Bevalac are discussed which demonstrate the usefulness of relativisti...
This research effort is directed toward theoretical support and guidance for the developing fields o...
The Nuclear Physics group at the University of Tennessee, Knoxville (UTK) is involved in several asp...
Experimental studies of giant resonances, nuclear structure, light mass systems, and heavy mass syst...
Experimental studies of giant resonances, nuclear structure, light mass systems, and heavy mass syst...
In the paper we review the recent progress of studies in unstable nuclei, mainly affiliated with the...
The nucleus is a finite many body system of strongly interacting particles described by quan-tum mec...
First-generation radioactive ion-beam facilities have already been in operation for some time. Advan...
First-generation radioactive ion-beam facilities have already been in operation for some time. Advan...
Beams of short-lived, unstable nuclei have opened new dimensions in studies of nuclear structure and...
First-generation radioactive ion-beam facilities have already been in operation for some time. Advan...
First-generation radioactive ion-beam facilities have already been in operation for some time. Advan...
First-generation radioactive ion-beam facilities have already been in operation for some time. Advan...
The latest progress made in the field of radioactive ion beam physics is outlined and the key proble...
State-of-the-art survey of topics in nuclear physics by leading practitioners in the field. Major fo...
Some recent experiments at the Bevalac are discussed which demonstrate the usefulness of relativisti...
This research effort is directed toward theoretical support and guidance for the developing fields o...
The Nuclear Physics group at the University of Tennessee, Knoxville (UTK) is involved in several asp...
Experimental studies of giant resonances, nuclear structure, light mass systems, and heavy mass syst...
Experimental studies of giant resonances, nuclear structure, light mass systems, and heavy mass syst...
In the paper we review the recent progress of studies in unstable nuclei, mainly affiliated with the...
The nucleus is a finite many body system of strongly interacting particles described by quan-tum mec...
First-generation radioactive ion-beam facilities have already been in operation for some time. Advan...
First-generation radioactive ion-beam facilities have already been in operation for some time. Advan...
Beams of short-lived, unstable nuclei have opened new dimensions in studies of nuclear structure and...
First-generation radioactive ion-beam facilities have already been in operation for some time. Advan...
First-generation radioactive ion-beam facilities have already been in operation for some time. Advan...
First-generation radioactive ion-beam facilities have already been in operation for some time. Advan...