Spectroscopy of Superheavy Nuclei: The SAGE spectrometer
Lead Research Organisation:
University of Liverpool
Department Name: Physics
Abstract
The majority of the mass of the universe is made up of atomic nuclei that lie at the centre of the atom. Nuclei contain positively charged protons and electrically neutral neutrons. The lightest known nucleus is that of hydrogen that contains just one proton but no one yet knows how heavy a nucleus can be; in other words, just how many neutrons and protons can be made to bind together. The aim of this proposal is to address this question by studying the heaviest nuclei that can be made in the laboratory. These nuclei are extremely difficult to create and study. The heaviest man-made elements today (unnamed as yet) have as many as 116 protons, but have been produced in tiny quantities of a few atoms only. Both protons and neutrons are held together by the strong nuclear force but protons are repelled from each other because of their electric charge. The nuclear force has an extremely short range, affecting nearest neighbours only, so that, as more and more protons are added to a nucleus the electrostatic repulsion will eventually become stronger than the nuclear binding forces and the nucleus will become unstable. The neutrons and protons will no longer stick together. This should happen for nuclei beyond uranium, which has 92 protons but the existence of heavier species comes about because of the internal structure within the nuclei. Just as noble gases owe their inert chemical behaviour to a specific arrangement of electrons that has extra stability, so certain 'magic' proton and neutron numbers also enhance nuclear stability. This project is concerned with a detailed study of the underlying mechanisms that yield this extra stability and allow 'superheavy' nuclei to exist. The main focus of this work will be on nuclei around nobelium with 102 protons, approximately halfway between the well-studied nuclei around uranium and the frontier of superheavy elements. Here spectroscopic methods can be used to gain detailed insights into the shape of the nucleus and the b
Publications
Seliverstov M
(2014)
Electromagnetic moments of odd- A Po 193 - 203 , 211 isotopes
in Physical Review C
Sorri J
(2016)
Determination of absolute internal conversion coefficients using the SAGE spectrometer
in Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
Kalaninová Z
(2014)
Decay of 201 - 203 Ra and 200 - 202 Fr
in Physical Review C
Smallcombe J
(2019)
Confirming band assignments in 167ytterbium with gamma-gamma-electron triple-coincidence spectroscopy
in The European Physical Journal A
Carroll R
(2015)
Competing Decay Modes of a High-spin Isomer in the Proton-unbound Nucleus $^{158}$Ta
in Acta Physica Polonica B
Konki J
(2013)
Combined in-beam gamma-ray and conversion electron spectroscopy with radioactive ion beams Simulations of a silicon detector for the SPEDE spectrometer
in EPJ Web of Conferences
Scheck M
(2011)
Combined in-beam electron and ? -ray spectroscopy of Hg 184 , 186
in Physical Review C
Davis-Merry T
(2015)
Collective excitations in the transitional nuclei Re 163 and Re 165
in Physical Review C
Seliverstov M
(2013)
Charge radii of odd-A 191-211Po isotopes
in Physics Letters B
Seweryniak D
(2010)
Bridging the nuclear structure gap between stable and super heavy nuclei
in Nuclear Physics A
Carroll RJ
(2014)
Blurring the boundaries: decays of multiparticle isomers at the proton drip line.
in Physical review letters
Venhart M
(2017)
Application of the Broad Energy Germanium detector: A technique for elucidating ß -decay schemes which involve daughter nuclei with very low energy excited states
in Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
Taylor M
(2013)
A new differentially pumped plunger device to measure excited-state lifetimes in proton emitting nuclei
in Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
Papadakis P
(2012)
A Geant4 simulation package for the SAGE spectrometer
in Journal of Physics: Conference Series
Kalaninová Z
(2013)
a decay of the very neutron-deficient isotopes 197 - 199 Fr
in Physical Review C
Drummond M
(2014)
a decay of the p h 11 / 2 isomer in Ir 164
in Physical Review C
Andreyev A
(2014)
a decay of Au 176
in Physical Review C
Andreyev A
(2013)
a -decay spectroscopy of the chain 179 Tl g ? 175 Au g ? 171 Ir g ? 167 Re m
in Physical Review C
Ketelhut S
(2009)
? -Ray Spectroscopy at the Limits: First Observation of Rotational Bands in Lr 255
in Physical Review Letters
Description | GREAT collaboration |
Organisation | University of Jyvaskyla |
Department | Department of Physics |
Country | Finland |
Sector | Academic/University |
PI Contribution | Constructed GREAT spectrometer and TDR DAQ system. Spokesperson of many experiments. |
Collaborator Contribution | facility |
Impact | 24 outputs |
Description | TASCA Collaboration |
Organisation | Gesellschaft für Schwerionenforschung |
Department | Nuclear Physics (Superheavy Elements) |
Country | Germany |
Sector | Academic/University |
PI Contribution | Parts of the detection system, Manpower, Data Analysis, Monte Carlo Simulation, Intellectual Input |
Collaborator Contribution | Technical Support for Experiment |
Impact | Confirmation of Element 114 and New isotope 277Hs (Duellmann et al, PRL 104 2010 252701) Spectroscopy of 253No (Anderson et al, NIMA622 2010 164) |
Start Year | 2006 |
Description | TASCA Collaboration |
Organisation | Helmholtz Association of German Research Centres |
Department | Helmholtz Institute Mainz |
Country | Germany |
Sector | Academic/University |
PI Contribution | Parts of the detection system, Manpower, Data Analysis, Monte Carlo Simulation, Intellectual Input |
Collaborator Contribution | Technical Support for Experiment |
Impact | Confirmation of Element 114 and New isotope 277Hs (Duellmann et al, PRL 104 2010 252701) Spectroscopy of 253No (Anderson et al, NIMA622 2010 164) |
Start Year | 2006 |
Description | TASCA Collaboration |
Organisation | Johannes Gutenberg University of Mainz |
Country | Germany |
Sector | Academic/University |
PI Contribution | Parts of the detection system, Manpower, Data Analysis, Monte Carlo Simulation, Intellectual Input |
Collaborator Contribution | Technical Support for Experiment |
Impact | Confirmation of Element 114 and New isotope 277Hs (Duellmann et al, PRL 104 2010 252701) Spectroscopy of 253No (Anderson et al, NIMA622 2010 164) |
Start Year | 2006 |