In atomic nuclei, the interplay of three fundamental forces (electromagnetic, strong and weak) between strongly interacting individual fermions generates an effective nucleon-nucleon interaction. As a result, nuclei present us with one of Nature's most intricate examples of the interplay between single-particle motion, collectivity and pairing in a quantum many-body system. A theoretical microscopic description of the nucleus is extremely difficult due to relatively large number of nucleons, which, in turn, is too small for a reliable statistical approach.
The Nuclear Spectroscopy group utilises in-beam gamma-ray and electron as well as decay-spectroscopic methods to shed more light on the microscopic structure of the nucleus through the studies of exotic nuclei, mainly along the proton drip line and in the region of heavy elements. These methodologies in conjunction with heavy-ion beams form the backbone for experimental studies of the Nuclear Spectroscopy Group.
Below you can find links to pages, where details of the Group activities, members and publications can be found.
Group members - Contact details for the Nuclear Spectroscopy Group
Research - Nuclear Spectroscopy Group research themes
- RITU Gas-Filled Recoil Separator
- JUROGAM II and Autofill System Status
- GREAT Spectrometer at the RITU focal plane
- LISA (Light Ion Spectrometer Array)
- SAGE (Silicon And GErmanium) Spectrometer
- MARA (Mass Analysing Recoil Apparatus)
- DPUNS plunger
- SPEDE (SPectrometer for Electron DEtection)
- MARA-LEB (Low-Energy Branch)
Documentation - Documentation related to instrumentation and running experiments
Proposals - Information relating to Nuclear Spectroscopy proposals
Students: Sample topics for BSc and MSc thesis topics can be found here (currently only in Finnish).