Professor Andrew Stuchbery
Position |
Head of Department |
|---|---|
Department |
Physics Education Centre Nuclear Physics & Accelerator Applications |
Office phone |
52097 |
Email |
|
Office |
Nuclear Physics 2 34 |
Nuclear lifetimes - developing new apparatus and methods
The measurement of the lifetimes of excited nuclear states is foundational for understanding nuclear excitations. This project covers three measurement methods that together span the nuclear lifetime range from about 100 femtoseconds to many nanoseconds. The project can include equipment development, measurement, and the development of analysis methodology (programming and computation).
Professor Andrew Stuchbery, Emeritus Professor Tibor Kibedi, Professor Gregory Lane, Mr Ben Coombes
Ultra-fast lifetime measurements of nuclear excited states
Use ultra-fast gamma-ray detectors to perform excited-state lifetime measurements and investigate single-particle and collective features of atomic nuclei.
Professor Gregory Lane, Dr AJ Mitchell, Professor Andrew Stuchbery, Emeritus Professor Tibor Kibedi
Nuclear vibrations in near-spherical and deformed nuclei
This project aims to discover if the long-held concept of low-energy nuclear vibrations holds true under scrutiny from Coulomb excitation and nucleon-transfer reactions.
Professor Andrew Stuchbery, Professor Gregory Lane, Dr AJ Mitchell, Mr Ben Coombes
Measuring electric quadrupole moments - the shapes of atomic nuclei
New methods to determine the shapes of atomic nuclei via the measurement of their electric quadrupole moment are being developed. Most nuclei are prolate spheroids - shaped like an Australian Rules football. As well as giving a picture of the nucleus, the quadrupole moment is an important observable to test theory.
Professor Andrew Stuchbery, Dr AJ Mitchell, Professor Gregory Lane, Mr Ben Coombes
Nuclear magnetism - magnetic moment measurements
This project builds on our established track record of developing novel methods to measure magnetic moments of picosecond-lived excited states in atomic nuclei, and the theoretical interpretation of those measurements. Students will help establish new methodologies to underpin future international research at the world's leading radioactive beam laboratories.
Professor Andrew Stuchbery, Emeritus Professor Tibor Kibedi, Professor Gregory Lane, Dr Brendan McCormick
Nuclear structure studies with particle transfer reactions
This project will use nuclear reactions to study the basic make-up of atomic nuclei at the quantum level, and investigate the impact of nuclear structure on sub-atomic forces and fundamental physics.
Dr AJ Mitchell, Professor Gregory Lane, Professor Andrew Stuchbery, Mr Ben Coombes
Measuring and modelling free-ion hyperfine fields
Motivated by exciting prospects for measurements of the magnetism of rare isotopes produced by the new radioactive beam accelerators internationally, this experimental and computational project seeks to understand the enormous magnetic fields produced at the nucleus of highly charged ions by their atomic electron configuration.
Professor Andrew Stuchbery, Emeritus Professor Tibor Kibedi, Dr Brendan McCormick
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Updated: 15 May 2024/ Responsible Officer: Director, RSPE/ Page Contact: Physics Webmaster
