This book represents a significant experimental advancement for the field of nuclear physics as it enhances our understanding of the giant dipole resonance (GDR) of atomic nuclei, a fundamental nuclear excitation inherent to virtually all nuclei, dominating their photo responses.
In particular, the work focuses on the experimental investigation of decay of the GDR, which, despite being a key property of this collective mode and despite decades of research on the GDR, has remained poorly characterized until now.
Key highlights of the thesis include:
Development of a novel experimental approach to systematically study decay of the GDR using artificial MeV-photon sources.
The first experimental application of this method to the GDRs of both spherical and deformed nuclei, yielding unprecedented data on the decay of this fundamental resonance from a Bayesian spectra-deconvolution analysis.
Interpretation of the data in the framework of the macroscopic, geometrical model of the GDR, resulting in a groundbreaking validation of this elementary picture of the mode.
Derivation of precise nuclear shape information from the -decay data allowing to furthermore test modern nuclear structure theory calculations of these observables, in particular nuclear triaxiality.
This book has a clear and accessible structure, introduces the basic physics and concepts underlying the experimental method, data analysis, and interpretation in detail and provides a thorough and reproducible description of the performed experiment and every step of the analysis.
This makes it understandable even to non-specialists and a valuable reference for future experimental work.
