Laser spectroscopy of Radioactive Isotopes
Lead Research Organisation:
University of Birmingham
Department Name: School of Physics and Astronomy
Abstract
Nuclear properties such as the size and magnetic field strength slightly shift or perturb the orbits of the atomic electrons.These shifts are small and at the level of a part per million of the electron binding energies. They can be measured with great precision by a variety of techniques using tunable laser light, which can be controlled with part per billion precision. When the laser light is tuned to exactly match an electronic transition frequency, it resonantly excites an isotope of the selected element. The excited atom quickly decays with the emission of fluorescence light which may be detected by photomultipliers sensitive to single photons. In this way the laser resonance can be located experimentally. The analysis of the resonant frequencies across an isotope series allows us to deduce the change in nuclear size as a function of neutron number. It is possible to detect the change of the proton distribution caused by the removal of a single neutron. The same data can show in a clear way whether the nucleus is changing its shape as neutrons are added or subtracted. The magnetic field strength around the nucleus, also measured in these experiments, is produced by the internal motion of both protons and neutrons. The theory of the magnetic field is well understood and clear conclusions can be drawn about the nucleon orbits occupied by the protons and neutrons. Thus the laser method provides fundamental information on basic properties of the nucleus - size, shape, magnetic properties, nuclear 'spin' angular momentum - which helps to refine our theoretical approaches to predict observed properties, and predict properties of nuclei we can not yet synthesize in the laboratory. The predictive power of these theories is very important. Many of the nuclei unavailable for study on Earth are involved in supernova processes. We cannot begin to understand the processes without first having an understanding of the nuclei involved. The laser techniques we have develo
People |
ORCID iD |
Garry Tungate (Principal Investigator) |
Publications
Avgoulea M
(2011)
Nuclear charge radii and electromagnetic moments of radioactive scandium isotopes and isomers
in Journal of Physics G: Nuclear and Particle Physics
Baczynska K
(2010)
Nuclear spin determination of 100 m Y by collinear laser spectroscopy of optically pumped ions
in Journal of Physics G: Nuclear and Particle Physics
Bissell M
(2007)
On the decrease in charge radii of multi-quasi particle isomers
in Physics Letters B
Bissell M
(2006)
Model independent determination of the spin of the Ta 180 naturally occurring isomer
in Physical Review C
Charlwood F
(2009)
Nuclear charge radii of molybdenum fission fragments
in Physics Letters B
Charlwood F
(2010)
Ground state properties of manganese isotopes across the N = 28 shell closure
in Physics Letters B
Cheal B
(2007)
The shape transition in the neutron-rich yttrium isotopes and isomers
in Physics Letters B
Cheal B
(2009)
Laser spectroscopy of niobium fission fragments: first use of optical pumping in an ion beam cooler buncher.
in Physical review letters
Flanagan K
(2009)
Nuclear Spins and Magnetic Moments of Cu 71 , 73 , 75 : Inversion of p 2 p 3 / 2 and p 1 f 5 / 2 Levels in Cu 75
in Physical Review Letters
Flanagan K
(2012)
Nuclear moments, charge radii and spins of the ground and isomeric states in 175 Yb and 177 Yb
in Journal of Physics G: Nuclear and Particle Physics
Description | MANC |
Organisation | University of Manchester |
Department | School of Physics and Astronomy Manchester |
Country | United Kingdom |
Sector | Academic/University |
PI Contribution | Worked in collaboration on experimental programme at Cern and Jyvaskyla. Analysed data and publish papers together. |
Collaborator Contribution | Collaborative work on project. Working together on experimental project at Cern and Jyvaskyla. |
Impact | Many joint publications. Please see list elsewhere. |
Description | Science Fesitival |
Form Of Engagement Activity | Participation in an open day or visit at my research institution |
Part Of Official Scheme? | No |
Primary Audience | Schools |
Results and Impact | 20 pupils and teachers attended talks on general nuclear physics. Some details of groups research includes in talks. General interest and motivation to study science. |
Year(s) Of Engagement Activity | 2010 |