Measurement of the 240 Pu( n,f ) reaction cross-section at the CERN n_TOF facility EAR-2

1. Measurement of the 240Pu(n,f) reaction cross-section at the CERN n_TOF facility EAR-2 • A. Tsinganis1, N. Colonna2, R. Vlastou1, P. Schillebeeckx3, A. Plompen3, J. Heyse3, M. Kokkoris1, M. Barbagallo2, E. Berthoumieux5, M. Calviani4, E. Chiaveri4,A. Stamatopoulos1 • and the n_TOF Collaboration • 1) National Technical University of Athens (NTUA), Greece • 2) IstitutoNazionalediFisicaNucleare, Bari, Italy • 3) European Commission JRC, Institute for Reference Materials and Measurements, Geel, Belgium • 4) European Organisation for Nuclear Research (CERN), Geneva, Switzerland • 5) Commissariat a l‘ EnergieAtomique (CEA) Saclay - Irfu, Gif-sur-Yvette, France • Spokespersons: A. Tsinganis, M. Kokkoris (NTUA) • Technical Coordinator: O. Aberle (CERN) 47th Meeting of the INTC CERN, June 25, 2014

2. Outline • Introduction and motivation • The 2010 240,242Pu(n,f) proposal • The 240Pu(n,f) measurement in EAR-1 • Sample-induced damage to detectors • Advantages of EAR-2 • Neutron fluence gain • Background suppression • Experimental • Samples, detectors etc. • Analysis • Software, simulations etc. • Beam request • Summary 240Pu(n,f) measurement @ n_TOF EAR-2 47th INTC Meeting, CERN, June 25, 2014

3. The measurement in EAR-1: motivation • Proposal CERN-INTC-2010-042 / INTC-P-280 (21/05/2010) • An (n,f) measurement on 240,242Pu • Both included in the NEA Nuclear Data High Priority Request List • Pu isotopes and minor actinides represent the main long-term contribution to waste radiotoxicity, persisting for ~105 y • 240Pu is produced in significant quantities in conventional reactors • Fission cross-sections of these isotopes are of great significance in the context of nuclear waste management and advanced nuclear systems, especially fast reactors (Generation IV, ADS) • Discrepancies ~10% exist above the fission threshold in 240Pu data • Physics motivation has already been endorsed by the INTC • In addition, recent attempts at n_TOF and elsewhere within the ANDES project were not successful for different reasons ANDES: Accurate Nuclear Data for Nuclear Energy Sustainability,www.andes-nd.eu Fission cross section measurements for 240Pu, 242Pu. Deliverable 1.5 of the ANDES project, DOI: 10.2787/81004 A. Plompen, “Minor Actinides, Major Challenges, the Needs for and Benefits of International Collaboration”, Nucl. Data Sheets (2014), Under publication 240Pu(n,f) measurement @ n_TOF EAR-2 47th INTC Meeting, CERN, June 25, 2014

4. The measurement in EAR-1: detector degradation • An unexpected alteration of some detectors was observed after removal from the chamber • A distinct discoloration of the micromesh is visible in the 4 detectors used with the 240Pu samples • Physical damage to the micromesh is visible under inspection with a microscope • A unique – if inadvertent – ageing test 3cm Courtesy A. Teixeira (CERN) 240Pu(n,f) measurement @ n_TOF EAR-2 47th INTC Meeting, CERN, June 25, 2014

5. The measurement in EAR-1: detector degradation • This leads to a deterioration of the electrical field • Separation of α-particles and fission fragments becomes impossible • A significant part of the data had to be discarded • Even under normal operation, the analysis would be challenging due to the long α-pile-up tail 240Pu(n,f) measurement @ n_TOF EAR-2 47th INTC Meeting, CERN, June 25, 2014

6. The measurement in EAR-1: detector degradation • This leads to a deterioration of the electrical field • Separation of α-particles and fission fragments becomes impossible • A significant part of the data had to be discarded • Even under normal operation, the analysis would be challenging due to the long α-pile-up tail By comparison, 242Pu… 240Pu(n,f) measurement @ n_TOF EAR-2 47th INTC Meeting, CERN, June 25, 2014

7. Two experimental issues identified • Gradual deterioration of detector performance due to high current / high α-activity • Shorter measurement due to higher flux • High α-activity of the 240Pu samples (>6MBq/sample) • Improved signal-to-background due to shorter acquisition window •  Both issues can be addressed in EAR-2 240Pu(n,f) measurement @ n_TOF EAR-2 47th INTC Meeting, CERN, June 25, 2014

8. Neutron fluence gain • Comparing EAR-2 (3cm diameter) with conditions of previous measurement in EAR-1 x7-10 x100-1000 x40-55 x30-45 x10-15 240Pu(n,f) measurement @ n_TOF EAR-2 47th INTC Meeting, CERN, June 25, 2014

9. Samples • Four 240Pu samples manufactured at IRMM • 3 cm diameter PuO2 deposit • 0.25 mm aluminium backing (5cm diameter) • The same samples used in the previous measurement • Reference samples (to be manufactured) • 235U (≈ 70 μg/cm2) • 238U (≈ 340 μg/cm2) • Preferably of 3cm diameter to match the Pu samples • Could add 237Np (≈ 60 μg/cm2) as additional reference 240Pu(n,f) measurement @ n_TOF EAR-2 47th INTC Meeting, CERN, June 25, 2014

10. Sample impurities • Measurement unaffected by impurities above ~1keV and at selected resonances NEA request range 240Pu(n,f) measurement @ n_TOF EAR-2 47th INTC Meeting, CERN, June 25, 2014

11. Sample holders • Samples adapted to internal frame of the chamber • Samples kept in place by mechanical pressure only, “sandwiched” between to thin aluminium rings kept together by two-sided adhesive tape and two thick aluminium rings compatible with the chamber support frame. • Already designed & sample safety file in place 240Pu(n,f) measurement @ n_TOF EAR-2 47th INTC Meeting, CERN, June 25, 2014

12. Experimental setup • Chamber support for EAR-2 • Micromegas detectors • Detector chamber • Preamplifier module • FINAL SETUP (picture from EAR-1) 240Pu(n,f) measurement @ n_TOF EAR-2 47th INTC Meeting, CERN, June 25, 2014

13. Analysis software, simulations • Already developed for previous measurement • Peak-search routine, routine for high-energy data analysis etc.... • Simulations of detector response: • Simulated amplitude spectrum compared with experimental spectrum  240Pu(n,f) measurement @ n_TOF EAR-2 47th INTC Meeting, CERN, June 25, 2014

14. Beam request • 2x1018 protons on target • 3-5 weeks, depending on beam delivery rate • 240Pu (435 μg/cm2, 4 samples) • Statistical uncertainty • <3% above 10keV • <1% above 300keV • Expected systematic uncertainties ~3-4% • Detector efficiency • Amplitude threshold correction • Selected resonances will also be studied with good statistics 240Pu(n,f) measurement @ n_TOF EAR-2 47th INTC Meeting, CERN, June 25, 2014

15. Summary • An important measurement • …especially in the light of recent not-so-successful attempts within ANDES • 2x1018 protons requested • Statistical uncertainty < 3% above 10keV, <1% above 300 keV • Improved conditions in EAR-2: • Shorter experiment (3-5 weeks) due to higher flux • Avoiding detector degradation • Shorter acquisition window • Stronger background suppression • Cross-check with different reference reactions • 235U(n,f), 238U(n,f), 237Np(n,f) • A useful study also for future measurements • Hardware already available • Procedures for Pu samples already in place • Analysis software already developed • Improvements, adjustments… • Could be ready to go on day 1 • Only foreseeable delay could be sample manufacturing and transport • One PhD student (NTU Athens) starting in September 240Pu(n,f) measurement @ n_TOF EAR-2 47th INTC Meeting, CERN, June 25, 2014

16. Thank you for your attention… 240Pu(n,f) measurement @ n_TOF EAR-2 47th INTC Meeting, CERN, June 25, 2014

17. Extra slides

18. Beam request • 2x1018 protons on target • Reference sample masses chosen to keep countrate <1 count/μs • 235U (70 μg/cm2) 238U (340 μg/cm2) • 237Np (60 μg/cm2) 240Pu(n,f) measurement @ n_TOF EAR-2 47th INTC Meeting, CERN, June 25, 2014

19. Beam request • 2x1018 protons on target • 237Np (60 μg/cm2) 240Pu(n,f) measurement @ n_TOF EAR-2 47th INTC Meeting, CERN, June 25, 2014