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Nuclear Decay Data at NPL

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1 Nuclear Decay Data at NPL
Paddy Regan NPL Radioactivity Group, AIR Division & Department of Physics, University of Surrey

2 Nuclear Data? ‘Nuclear Data’ and its evaluation underpin many areas of both applied and fundamental nuclear science, including Nuclear (waste) fuel assay & fission fragment identification Nuclear forensics Nuclear reactor operation / efficiency modelling Radioisotope production (e.g., reaction cross-sections) Radiopharmaceutical applications (activity standardisations, dosimetry calculations) Identification and characterisation of ‘new’ radio-isotopes Fundamental studies of nuclear structure physics Input into International nuclear databases e.g., NEA / IAEA / JENDL/ NNDC

3 What is nuclear data? Measured values of a range of nuclear energy and time parameters, including Nuclear ground state masses, decay modes (a, b, fission,,..) and decay energies. Nuclear decay lifetimes and partial decay modes Competing internal decays verses beta/alpha decay modes. Beta-delayed neutron probabilities, Pn(%) values, in fission fragments. Nuclear reaction probabilities (‘cross-sections’) as a function of energy, (n,f), (p,f) reactions etc., e.g., thermal neutron capture cross-sections. Reaction product distributions from e.g. thermal and fast-neutron fission. Excited state properties of nuclei, characteristic gamma-ray energies, relative Pg (%) values, transition rates from nuclear excited states (lifetimes range from ~10-15 s 1010 secs) internal conversion coefficients and gamma-ray decay multipolarities. Magnetic and quadrupole moments of nuclear excited and ground states. …lots more.

4 Examples of recent ‘nuclear data’ standardisations from NPL
Lifetime of the decay of 223Ra. Gamma-ray emission probablilities in the decay of 111Ag. 236Np production and separation. Evaluation of fission fragment distributions from 25 MeV protons on Natural Uranium. First identification and structure information on 162Sm, 166Gd (RIKEN, Japan)

5 Some recent (2014 ff) papers
re nuclear data from the NPL Group.

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7 223Ra half-life

8 Hosted IoP/NNL/NPL sponsored
Workshop on Nuclear Data, Current Data, Uncertainties, Applications and Needs 30 October 2014 NPL has led workshops which have brought together nuclear physics researchers from academia and national research laboratories with end-user stakeholders (e.g., EdF. IAEA, CCFE/UKAEA) who are interested in the accurate measurement and application of nuclear data to present the current status and discuss ongoing needs and possible future collaboration in this developing area. Aspects of nuclear data-related research which were presented included: i)  Measurements of nuclear fission residues and neutron capture cross-sections; ii)  Nuclear decay data information from spent fission fuels including decay heat etc.; iii)  Nuclear databases, who maintains them & what information do they contain and need? ; iv)  The new decay spectroscopy of exotic, neutron-rich isotopes at new radioactive beam facilities world-wide; v)  Standardisations of medical radiopharmaceutical and naturally occurring radioisotopes; vi)  Areas of nuclear data needs from various end-user stakeholders such as EDF and NIRO.

9 IoP/NNL/NPL Nuclear Data Workshop 30th Oct 2014 > 80 external delegates

10 ‘Recent’ NPL involvement in ‘state of the art’ nuclear spectroscopy programmes
Isolde Decay Station, CERN, Switzerland. Decay spectroscopy of 207Hg & 207Tl (Aug. 2014) RIBF, RIKEN, Japan, EURICA, New isotopes and spectroscopy of fission fragments (Nov 2014).

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12 NANA: The NAtional Nuclear Array
Compact, high-efficiency, good granularity, acceptable resolution gamma-ray spectrometer array. Gamma-ray detection both in g-g coincidence mode (and later) for use in beta-gamma Current design, 12 LaBr3(Ce) in close geometry, Space for additional ‘gating’ detectors (HpGe, or Si beta-detector) to be added later,

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14 Robert Shearman, NDA-NNL funded PhD student, based at NPL, registered at University of
Surrey, working on ‘Development of a Novel Gamma-ray Detection System For Fission Fragment Management and Evaluation’. Begun Oct NNL supervisor, Dr. Robert Mills ; NPL Supervisor, Dr. Steven Judge ; NPL/U.Surrey supervisor: Prof. Paddy Regan

15 Courtesy: R.Shearman NDA / NNL funded PhD Student at NPL & U. Surrey Conceptual design, for NANA. Initial design: 12 detectors in fixed geometry with source in central position. Cylindrical LaBr3(Ce) Scintillation crystals, 1.5” diameter and 2.0” in length. Digital time stamped DAQ Using CAEN 1 GHz Digitisers.

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17 Development of novel spectrum and coincidence analysis techniques.
Time-correlated (1 GHz samples) gamma-ray coincidence analysis using LaBr3(Ce) Detectors. Analysis done on ‘list mode data’ and analysed ‘event by event’. Uses ROOT software (from CERN).

18 Fast-neutron induced fission on 238U studies at IPN Orsay, ongoing right now. Investigation of ‘in-beam’ prompt gamma-ray flux and overall prompt fission gamma-ray spectrum. (Also new data on neutron-rich fission isotopes for future characterisations). Currently using MINIBALL gamma-ray detectors; workshop at NPL March 2015 to discuss wider programme using NANA detectors.

19 Future uses and applications of NANA array and detectors?
Fast-timing Gamma-ray Spectroscopy Nuclear Physics Workshop to be held at NPL March 2015. Proposals for a range of experimental programmes linked to Nuclear Data Measurement with Fast-timing LaBr3(Ce) gamma-ray spectrometer arrays: 252Cf fission source decay (at Argonne National Lab, USA). Fast-neutron fission on 238U and 232Th IPN-Orsay, France). Decay spectroscopy at the CERN-ISOLDE decay station. GANIL, France for precision structure studies of neutron-rich isotopes (fission radionuclides). Decay spectroscopy and beta-decay lifetimes of neutron-rich fission fragments (RIKEN, Japan & FAIR-GSI, Germany)


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