The XXI International Scientific Conference of Young Scientists and Specialists (AYSS-2017)

Advanced time-delayed β-γ-γ(t) method as a powerful tool to study neutron-rich nuclei

Not scheduled

Oral Experimental Nuclear Physics

Speaker

Ms Ewa Adamska (Faculty of Physics, University of Warsaw)

Description

The nuclear structure investigation of the nuclei located at the double shell closures needs verification of theoretical models predictions. For this reason, the nuclear level half-lives have to be known. They allow to extract essential information about the transition matrix elements. This can be obtained from measurements of the nuclear levels half-lives. The advanced time-delayed β-γ-γ(t) method [1] can be used for that aim, specifically for a study of the neutron-rich nuclei. The method provides a picoseconds precision. The two LaBr3 detectors of fast-response were used with a fast β detector in the coincidence mode. In the experimental setup there were also the Ge detectors towards a requirement of getting to know decay branch with a high energy resolution. The timing information was reached from the β-γ(t) delayed coincidences between the events registered in the β detector and the LaBr3 scintillator. [1] H. Mach et al. , Nucl. Instrum. Methods Phys. Res. A 280, 49-72 (1989).