Conveners
Wednesday 2
- Giacomo De Angelis (INFN, Laboratori Nazionali di Legnaro)
-
Sebastian Koenig (NC State University)04/02/2026, 11:30Invited Talk
Nuclear physics is connected to many different areas of physics, spanning arcs from particle physics all the way to astronomy. A solid understanding of nuclear systems from first principles, that is, based on Quantum Chromodynamics as the fundamental theory of the strong interaction, is therefore of great importance, and it can only be achieved with as a concerted effort of theory and...
Go to contribution page -
Prof. Luis Mario Fraile (CERN)04/02/2026, 12:00Invited Talk
Recent advances in fast scintillators, high-performance photodetectors, and state-of-the-art readout electronics are driving substantial progress in both Nuclear Spectroscopy and Reaction Dynamics, and medical imaging. Halide-based inorganic scintillator crystals, which offer fast timing response, excellent energy resolution, and high effective atomic number, have proven particularly suited...
Go to contribution page -
Maximilian Droste04/02/2026, 12:30Oral Contribution
The evolution of nuclear collectivity and structure in the region surrounding the doubly-magic nucleus $^{132}$Sn remains a central open question in nuclear structure physics. Recent shell-model calculations, employing realistic interactions, predict an enhancement of collectivity in the neighboring even-even isotopes of $^{132}$Sn [1]. Despite this, a long-standing discrepancy between...
Go to contribution page -
Franco Camera (Istituto Nazionale di Fisica Nucleare)04/02/2026, 12:45Invited Talk
The HECTOR+ [1] and the PARIS [2] arrays are composed of large volume scintillator crystals and are mainly (but not only) focused on the detection of high-energy gamma-rays.
Go to contribution page
At the moment, the HECTOR+ array consists of 10 large volume cylindrical (3.5" x 8") LaBr3:Ce crystals. Two detectors are now in Krakow at CCB (Pl) while eight are now located in Osaka (Jp) within the PANDORA project [3]....