Add to ORKGThe periodic table is known up to the element Z=118, in a region very difficult to access. An ultimate superheavy Island of Stability is predicted by various theories but was never discovered. The nuclei from Z=100 to 106 can be produced in suffisant number to be studied by spectroscopic techniques. Within this framework, I studied in particular the 256Rf (Z=104) nuclei. For this purpose, an isotopic intense 50Ti ion beam was established with the MIVOC method for the first time at Jyväskylä (Finland).Thanks to the JUROGAM II, RITU and GREAT association, I studied the 256Rf with in prompt and delayed spectroscopy. I highlighted the first rotational band in a superheavy nuclei extending up to 20+ and confirmed its three khown isomers. Afte...
The study of the heavy and superheavy nuclei mass region represents one of the biggest challenge for...
Understanding the nuclear structure and the underlying interactions is one of the major challenges i...
The subject of this thesis is the study of the transfermium nuclei region. These are nuclei having a...
Le tableau périodique est connu jusqu'à l'élément Z=118, situé dans une région difficile d'accès. Un...
La région des noyaux transfermium (Z = 100 à 104) est la dernière région de la charte nucléaire acce...
La région des noyaux transfermium (Z = 100 à 104) est la dernière région de la charte nucléaire acce...
The region of transfermium nuclei (Z = 100 to 104) is the last region of the nuclides chart to be ac...
L'étude de la région des noyaux lourds et superlourds représente un des défis de la physique nucléai...
Using state-of-the-art γ-ray spectroscopic techniques, the first rotational band of a superheavy el...
The rotational band structure of the Z ¼ 104 nucleus 256Rf has been observed up to a tentative spin ...
The rotational band structure of the Z = 104 nucleus (256)Rf has been observed up to a tentative spi...
Investigations on the nuclear structure in the region around N = 152 deformed shell gap provide anun...
Major part of this work is about the realization and complete analysis of an experiment for study of...
The study of the heavy and superheavy nuclei mass region represents one of the biggest challenge for...
Understanding the nuclear structure and the underlying interactions is one of the major challenges i...
The subject of this thesis is the study of the transfermium nuclei region. These are nuclei having a...
Le tableau périodique est connu jusqu'à l'élément Z=118, situé dans une région difficile d'accès. Un...
La région des noyaux transfermium (Z = 100 à 104) est la dernière région de la charte nucléaire acce...
La région des noyaux transfermium (Z = 100 à 104) est la dernière région de la charte nucléaire acce...
The region of transfermium nuclei (Z = 100 to 104) is the last region of the nuclides chart to be ac...
L'étude de la région des noyaux lourds et superlourds représente un des défis de la physique nucléai...
Using state-of-the-art γ-ray spectroscopic techniques, the first rotational band of a superheavy el...
The rotational band structure of the Z ¼ 104 nucleus 256Rf has been observed up to a tentative spin ...
The rotational band structure of the Z = 104 nucleus (256)Rf has been observed up to a tentative spi...
Investigations on the nuclear structure in the region around N = 152 deformed shell gap provide anun...
Major part of this work is about the realization and complete analysis of an experiment for study of...
The study of the heavy and superheavy nuclei mass region represents one of the biggest challenge for...
Understanding the nuclear structure and the underlying interactions is one of the major challenges i...
The subject of this thesis is the study of the transfermium nuclei region. These are nuclei having a...