Nuclear Structure, Astrophysics and Reactions (NuSTAR) at FAIR
Lead Research Organisation:
University of the West of Scotland
Department Name: School of Science
Abstract
Abstracts are not currently available in GtR for all funded research. This is normally because the abstract was not required at the time of proposal submission, but may be because it included sensitive information such as personal details.
Publications
Czerwinski M
(2013)
Yrast excitations in the neutron-rich N = 52 isotones
in Physical Review C
Sahin E
(2012)
Structure of the As, Ge, Ga nuclei
in Nuclear Physics A
Szilner S
(2013)
Structure of chlorine isotopes populated by heavy ion transfer reactions
in Physical Review C
Colovic P
(2017)
Stretched configuration of states as inferred from $ \gamma$ ? -ray angular distributions in 40Ar + 208Pb neutron transfer reactions
in The European Physical Journal A
Gregor E
(2017)
Shell evolution of stable N = 50-56 Zr and Mo nuclei with respect to low-lying octupole excitations
in The European Physical Journal A
Wisniewski J
(2017)
Parity-doublet structure in the La 90 57 147 nucleus
in Physical Review C
Naïdja H
(2017)
New excitations in Ba 142 and Ce 144 : Evolution of ? bands in the N = 86 isotones
in Physical Review C
Didierjean F
(2017)
Neutron effective single-particle energies above Ni 78 : A hint from lifetime measurements in the N = 51 isotones Se 85 and Kr 87
in Physical Review C
Kurpeta J
(2012)
Low-spin structure of 85 Se and the ß n branching of 85 As
in Physical Review C
Ansari S
(2018)
Lifetime measurement in neutron-rich A~100 nuclei
in EPJ Web of Conferences
Description | This grant is to fund a suite of equipment to be used as part of NuSTAR, Nuclear Structure Astrophysics and Reactions) at the FAIR facility in Darmstadt. Our part of the work is to help develop an array of LaBr3 detectors for measurements of lifetimes of nuclear states. |
Exploitation Route | The purpose of the grant was to build an array of LaBr3 scintillator detectors for use in nuclear-physics experiments to measure the lifetimes of states of exotic nuclei. The development and use of novel types of scintillators such as LaBr3 could be of use in various areas of industry and society. In particular LaBr3 has very good energy resolution (compared to other scintillator detectors) so could find use in areas such as environmental monitoring and nuclear forensics. |
Sectors | Education,Environment,Healthcare,Security and Diplomacy,Other |