Abstract
Abstract
For certain combinations of protons and neutrons it is expected that the shape of atomic nuclei can undergo octupole deformation, which would give rise to reflection asymmetry or a ‘pear shape’. Here it is described how recent experiments carried out at CERN using the HIE-ISOLDE facility to accelerate radioactive beams and detect the subsequent γ-emission using the Miniball spectrometer have provided evidence that several radium and radon isotopes have either stable pear shapes or are octupole vibrational in nature. Their behaviour is compared with that of nuclei with A ≈ 150 exhibiting strong octupole correlations. It will be shown that the data on transition moments present some challenges for theory. The relevance of these measurements for atomic EDM searches will also be discussed.
Funder
Science and Technology Facilities Council
Federal Ministry of Education and Research
National Science Centre
European Union Horizon Framework research & innovation programme ENSAR2
European Union & CERN Marie Sklodowska-Curie COFUND Grant
Research Foundation Flanders and IAP Science Policy BriX network
RFBR
Academy of Finland
Bulgarian National Science Fund
ISOLDE Collaboration