Measurement of the fission cross-section of 240Pu and 242Pu at CERN’s n_TOF facility CERN-INTC-2010-042, INTC-P-280 Spokespersons: M. Calviani (CERN),

Slides:

Advertisements

Similar presentations

Modeling of Photonuclear Reactions & Transmutation of Long-lived Nuclear Waste in High Photon Fluxes M.-L. GIACRI-MAUBORGNE, D. RIDIKAS, J.-C.

Advertisements

G. Perdikakis1,2, C. T. Papadopoulos1, R. Vlastou1, A. Lagoyannis2, A

Nuclear data: fission yields, decay heat and neutron reaction cross sections: A Proposal for a Nuclear Data Consortium Universities of Manchester, Surrey.

L. Tassan-Got – IPN Orsay Nuclear data and reactor physics Radiotoxicity and spent fuel.

N_TOF fission data of interest for ADS

A 4-PAD MicroMegas system for monitoring purpose at n_TOF facility (CERN) M. Sabaté-Gilarte 1,2 T. Papaevangelou 3, F. Gunsing 3, E. Berthoumieux 3, M.

Joint IAEA-ICTP Workshop on Nuclear Reaction Data for Advanced Reactor Technologies Student’s presentation Calculation of correction factors for neutron.

Measurements of cross-sections of neutron threshold reactions and their usage in high energy neutron measurements Ondřej Svoboda Nuclear Physics Institute,

1Managed by UT-Battelle for the U.S. Department of Energy Simulation of βn Emission From Fission Using Evaluated Nuclear Decay Data Ian Gauld Marco Pigni.

E.Chiaveri on behalf of the n_TOF Collaboration n_TOF Collaboration/Collaboration Board Lisbon, 13/15 December 2011 Proposal for Experimental Area 2(EAR-2)

Fundamentals of Neutronics : Reactivity Coefficients in Nuclear Reactors Paul Reuss Emeritus Professor at the Institut National des Sciences et Techniques.

Nuclear Data for ADS and Transmutation Joint TREND/SANDAT proposal for FP6 ADOPT- Meeting, Dec E. Gonzalez-Romero (CIEMAT) Introduction Sensitivity.

Some fission yields for 235U (n,f), 239Pu (n,f), 238U (n,f) reactions in ΣΣ neutron spectrum Dr. Cristina Garlea National Institute for R&D of Physics.

Measurement of the 240 Pu(n,f) cross-section at the CERN n_TOF facility: first results from Experimental Area II (EAR-2) A. Tsinganis 1,2, N. Colonna 3,

Studies of neutron cross-sections by activation method in Nuclear Physics Institute Řež and in The Svedberg Laboratory Uppsala and experimental determination.

Walid DRIDI, CEA/Saclay n_TOF Collaboration Meeting, Paris December 4-5, 2006 DAPNIA Neutron capture cross section of 234 U Walid DRIDI CEA/Saclay for.

L. Tassan-Got Fission cross section measurements with coincidences CB n-TOF 5/12/2006 Fission cross section measurements with a coincidence method Measured.

Status on 25 Mg(n,  ) and neutron flux in 2012 Bologna, 27 November 2013 C. Massimi.

Analysis of the 237 Np(n,f) data with the FIC detector M. Diakaki National Technical University of Athens n_TOF Analysis meeting, 27/11/2013.

Cross-sections of Neutron Threshold Reactions Studied by Activation Method Nuclear Physics Institute, Academy of Sciences of Czech Republic Department.

Measurement of 7 Be(n,  ) and 7 Be(n,p) cross sections for the Cosmological Li problem in Addendum to CERN-INTC /INTC-P-417 Spokepersons:

Neutron cross-sections measurement at the facility at CERN Students’coffee – 26th meeting, Tuesday 28 October 2014, D02-BE Auditorium Prevessin Massimo.

CERN-INTC /INTC-P-415 Tackling the s-process stellar neutron density via the 147 Pm(n,  ) reaction Spokespersons: C. Guerrero (U. Sevilla) and.

N_TOF commissioning INTC-P-249 Spokespersons: J.L.Tain, V.Vlachoudis Contactperson: V.Vlachoudis th Nov 2009 for the n_TOF collaboration.

The n_TOF facility at CERN somewhere around here

Institute for Reference Materials and Measurements (IRMM) Geel, Belgium CRP Th - U, Vienna December 2004.

ANITA workshop, Uppsala, december 2008 ANITA neutron source Monte Carlo simulations and comparison with experimental data Mitja Majerle Nuclear Physics.

N_TOF activities in December 2006 A Mengoni IAEA, Vienna The n_TOF Collaborationwww.cern.ch/n_TOF.

Neutron production in Pb/U assembly irradiated by deuterons at 1.6 and 2.52 GeV Ondřej Svoboda Nuclear Physics Institute, Academy of Sciences of Czech.

1 FRENCH ATOMIC ENERGY COMMISION (CEA) - NUCLEAR ENERGY DIVISION Nuclear Data Needs, SG26, NEA data bank, 3 May 2006CEA/DER Cadarache Centre Gérald Rimpault.

Pion-Induced Fission- A Review Zafar Yasin Pakistan Institute of Engineering and Applied Sciences (PIEAS) Islamabad, Pakistan.

C. CERN EN/STI Student's Coffee (April 17 th 2012) “An n_TOF experiment: the complete process from the data taken to the published results”

Simultaneous photo-production measurement of the  and  mesons on the nucleons at the range 680 – 1500 MeV N.Rudnev, V.Nedorezov, A.Turinge for the GRAAL.

Alignment for 2010 run and n_TOF 2009 beam profile M. Calviani (CERN), S. Andriamonje (CERN), E. Berthoumieux (CEA), C. Guerrero (CIEMAT),

11. February th INTC Meeting, CERN, Geneva/Switzerland

Non-equilibrium Antineutrino spectrum from a Nuclear reactor We consider the evolution of the reactor antineutrino energy spectrum during the periods of.

Neutron-induced fission cross-section of 237 Np obtained with two different detection systems 49 th Meeting of the INTC CERN, February 11, 2015 L. Audouin.

Status of the n-TOF experiment E.Chiaveri ( EN-STI-EET ) On behalf of n_TOF collaboration 14/5 November 2010INTC Meeting.

Measurement of the 240 Pu(n,f) reaction cross-section at the CERN n_TOF facility EAR-2 47 th Meeting of the INTC CERN, June 25, 2014 A. Tsinganis 1, N.

1 Alushta 2016 CROSS SECTION OF THE 66 Zn(n,α) 63 Ni REACTION at CROSS SECTION OF THE 66 Zn(n, α) 63 Ni REACTION at E n = 4.0, 5.0 and 6.0 MeV I. Chuprakov,

Neutron double differential distributions, dose rates and specific activities from accelerator components irradiated by 50 – 400 MeV protons F. Cerutti.

Three years of cross-section measurements of (n,xn) threshold reactions at TSL Uppsala and NPI Řež O. Svoboda, A. Krása, A. Kugler, M. Majerle, J. Vrzalová,

Accurate Neutron-Induced Cross Section Measurements at the CERN n_TOF facility Paolo Maria MILAZZO INFN - Trieste.

Transmutation of 129 I with high energy neutrons produced in spallation reactions induced by protons in massive target V.HENZL Nuclear Physics Institute.

Ciemat Centro de Investigaciones Energéticas, Medioambientales y Tecnológicas D. Cano-Ott, 6 th Geant4 Space Users Workshop Evaluated neutron cross section.

Measurement of prompt fission g-rays with lanthanum halide scintillation detectors A. Oberstedt This work was supported by the EFNUDAT programme of the.

Investigation of the proton-induced reactions on natural molybdenum.

on behalf of the n_TOF Collaboration

1. Nuclear Data Prof. Dr. A.J. (Arjan) Koning1,2

at TSL high energy neutron facility

SMI-06 Workshop, Groningen,

the s process: messages from stellar He burning

The nucleosynthesis of heavy elements in Stars: the key isotope 25Mg

Cross-section Measurements of (n,xn) Threshold Reactions

CHEM 312: Lecture 19 Forensics in Nuclear Applications

n_TOF annual meeting December 2011, Lisbon

AMSTRAMGRAM AMélioration de la Section Thermique de capture l’Américium 241 par Mesure intéGRAle dans MINERVE P. Leconte CEA (SPRC/LEPh) A. Gruel, B.

The neutron capture cross section of the s-process branch point 63Ni

for collaboration “Energy plus transmutation”

Measurements of the 238U radiative capture cross section using C6D6

Susan Hogle, Julie G. Ezold

EUROPEAN ORGANIZATION FOR NUCLEAR RESEARCH

JOINT INSTITUTE FOR NUCLEAR RESEARCH

Pebble Bed Reactors for Once Trough Nuclear Transmutation

Mitja Majerle NPI CAS Řež, Czech Republic

MINOS: a new vertex tracker for in-flight γ-ray spectroscopy

Report from 11th INTC meeting 25/02/2002 (nToF part)

Neutron production in Pb/U assembly irradiated by p+, d+ at 0. 7 – 2

O. Svoboda, A. Krása, A. Kugler, M. Majerle, J. Vrzalová, V. Wagner

High precision measurement of the radiative capture cross section of 238U at the n_TOF CERN facility F. Mingrone on behalf of the n_TOF Collaboration.

Presentation transcript:

Measurement of the fission cross-section of 240Pu and 242Pu at CERN’s n_TOF facility CERN-INTC-2010-042, INTC-P-280 Spokespersons: M. Calviani (CERN), E. Berthoumieux (CEA) TC: V. Vlachoudis (CERN) n_TOF Collaboration

Outline Motivations Detector description Samples characteristics 240Pu, 242Pu count-rate evaluation Beam time request CERN-INTC-2010-042, INTC-P-280 23rd June 2010

The issue of nuclear waste Main problem of nuclear energy production are the transuranic actinides: Pu and MA (Np, Am, Cm…) 1.5% in mass but give the biggest contribution to radiotoxicity and heat after 100 y Problem persists for more than 105 y Some isotopes are fissionable (proliferation and criticality concerns) Generation-IV reactors are aimed to recycle large amount of spent fuel (actinides) Dedicated Burners (ADS…) Present generation reactors have a low burn-up efficiency and produce large amount of radioactive waste In all cases a large reduction of actinides inventory is achieved by means of neutron-induced fission reactions CERN-INTC-2010-042, INTC-P-280 23rd June 2010

Motivations for fission measurements Energy Range Current Accuracy (%) Target Accuracy (%) U238 Inel 0.5 ÷ 6.1 MeV 10 ÷ 20 2 ÷ 3 Capt 2.04 ÷ 24.8 keV 3 ÷ 9 1.5 ÷ 2 Pu241 Fiss 454 eV ÷ 1.35 MeV 8 ÷ 20 2 ÷ 5 Pu239 2.04 ÷ 498 keV 7 ÷ 15 4 ÷ 7 Pu240 0.498 ÷ 1.35 MeV 6 2 ÷ 4 Pu242 0.498 ÷ 2.23 MeV 19 ÷ 21 Pu238 0.183 ÷ 1.35 MeV 17 3 ÷ 5 Am242m 67.4 keV ÷ 1.35 MeV 3 ÷ 4 Am241 2.23 ÷ 6.07 MeV 9 2 Am243 0.498 ÷ 6.07 MeV 12 3 Cm244 50 5 Cm245 67.4 ÷ 183 keV 47 7 Uncertainty reduction requirements for Gen-IV fast reactors Objective is to meet integral parameters target accuracies Aliberti, Palmiotti, Salvatores – Validation of simulation codes for future systems, NEMEA-4 Workshop, October 2007 OECD/NEA WPEC Subgroup 26, (2008) The development of advanced nuclear systems requires data on minor actinides  Pu isotopes n_TOF is a key facility CERN-INTC-2010-042, INTC-P-280 23rd June 2010

Motivations – 240Pu(n,f) 8 keV – 20 keV ~10% ~8% 100 keV – 50 MeV NEA Nuclear Data High Priority list (May 2010) OECD/NEA WPEC Subgroup 26, (2008) Energy range Initial Unc. (%) Target Unc. (%) 2.23 – 6.07 MeV 5 3 1.35 – 2.23 MeV 6 2-3 0.498 – 1.35 MeV 2-4 0.454 – 2.03 keV 22 9-13 Uncertainty request above fission threshold is challenging but feasible Data in the keV region: Important for fast reactors Discrepancy up to 20-30% 8 keV – 20 keV ~10% ~8% 100 keV – 50 MeV http://www.nndc.bnl.gov CERN-INTC-2010-042, INTC-P-280 23rd June 2010

Motivations – 242Pu(n,f) ~25% ~15% 1 keV – 1 MeV 100 keV – 10 MeV Energy range Initial Unc. (%) Target Unc. (%) 6.07 – 19.6 MeV 37 15 2.23 – 6.07 MeV 5-8 1.35 – 2.23 MeV 21 4-7 0.498 – 1.35 MeV 19 4-10 183 – 498 keV 9 NEA Nuclear Data High Priority list (May 2010) OECD/NEA WPEC Subgroup 26, (2008) 1 keV – 1 MeV Disagreement up to 15% at the threshold ~25% ~15% Step in ENDF/B-VII.0 and strong disagreement between measurements 100 keV – 10 MeV http://www.nndc.bnl.gov CERN-INTC-2010-042, INTC-P-280 23rd June 2010

Detectors We propose to perform 240,242Pu(n,f) measurements: Large area MicroMegas detector 10 cm active diameter Presently working in the n_TOF EAR: 10B(n,a) and 235U(n,f) Foreseen 10 samples in the beam for simultaneous measurement of the fission cross-section Advantages: Transparent detector (very low background) Not very much sensitive to g-flash  high energy T. Papaevangelou et al., MPGD2009 Proceedings (2009) S. Andriamonje et al., ND2010 Proceedings (2010) M. Calviani et al., Phys. Rev. C 80, 044604 (2009) (FIC) M. Calviani et al., NIM A594, 220-227 (2008) (FIC) CERN-INTC-2010-042, INTC-P-280 23rd June 2010

Detector performances - MicroMegas neutrons 10 cm diameter MicroMegas in n_TOF EAR-WSTA 10 cm diameter MicroMegas with 10B and 235U samples in ISOLDE Work Sector Type A a background fission fragments Pulse height distribution from 235U(n,f) Fission yield from 235U sample in MicroMegas CERN-INTC-2010-042, INTC-P-280 23rd June 2010

Samples and radioprotection limits Samples to be provided by IRMM, Belgium A high purity material batch is already available at the Institute and a request has been submitted 240Pu sample 242Pu sample 238Pu 0.004% 239Pu 0.019% 0.005% 240Pu 99.879% 241Pu 0.001% 0.023% 242Pu 99.949% 240Pu: 15 mg (four samples of 25 MBq each) 242Pu: 25 mg (four samples of 7 MBq each) Respects the “1 mSv criterion” established at CERN for radioactive isotopes Chosen mass according to CR, a-activity and detection efficiency Samples deposited on Ø=6 cm (flat beam) Measurement at CERN now feasible, thanks to the new classification of the experimental area as “Work Sector Type A” See E. Chiaveri, “Report from n_TOF” CERN-INTC-2010-042, INTC-P-280 23rd June 2010

Countrates 240Pu (1/2) Fission rate per proton bunch 15 mg 240Pu, 133 mg/cm2 240Pu 239Pu 241Pu request > 300 eV the measurements is mostly unaffected by the presence of contaminants in the sample  measurement ok! < 100 eV, most of the contaminant contribution is due to 239Pu(n,f): subtraction possible, with relatively small uncertainties CERN-INTC-2010-042, INTC-P-280 23rd June 2010

Countrates 240Pu (2/2) Above 1 keV: <3%/bin 1% Fission counts and statistical uncertainties using 8x1018 protons With 20 bins/neutron energy decade (statistical uncertainty): Above 1 keV: <3%/bin Above threshold: <1%/bin Expected systematic uncertainties: ~3-4% CERN-INTC-2010-042, INTC-P-280 23rd June 2010

Countrates 242Pu (1/2) request Fission rate per proton bunch 25 mg 242Pu, 220 mg/cm2 242Pu 241Pu 239Pu Contaminant is predominant at low energies request < 100 eV, the contribution of the contaminants on the fission yield is > 2 orders of magnitude higher than that of 242Pu(n,f) > 1 keV the contribution of the fission yield due to the contaminants is < 1%  measurement ok! CERN-INTC-2010-042, INTC-P-280 23rd June 2010

Countrates 242Pu (2/2) Fission counts and statistical uncertainties using 8x1018 protons 3% 5% 1% With 20 bins/neutron energy decade (statistical uncertainty): 1-100 keV: ~5%/bin >100 keV: <3%/bin above threshold: <1%/bin Data adequate for Gen-IV reactors Expected systematic uncertainties: 4-5% CERN-INTC-2010-042, INTC-P-280 23rd June 2010

Beam time request 8x1018 Isotope Mass (mg) Stat. Uncertainties (%) # protons 240Pu 15 ≤ 2 (500 eV – 10 MeV) 8x1018 242Pu 25 ≤ 3 (100 keV – 10 MeV) 235U 5 < 1 n. d. 238U Beam request sufficient to reach the goal of the measurement in the URR and threshold region and to study selected resonances at lower energie Measurements relative to: 235U(n,f) cross-section is a standard from 150 keV to 200 MeV 238U(n,f) cross-section is a standard from 2 to 200 MeV http://www-nds.iaea.org/standards/ CERN-INTC-2010-042, INTC-P-280 23rd June 2010

Conclusions Requested protons: 8x1018 Sensitivity studies for Generation-IV critical reactors, show that a drastic reduction of uncertainties on fission cross-section is needed for high mass plutonium isotopes Present proposal aims at collecting data on 240Pu(n,f) and 242Pu(n,f) Goal: reach an accuracy of around 3-5% in the URR up to around 50 MeV for 240Pu 6-7% for 242Pu Requested protons: 8x1018 CERN-INTC-2010-042, INTC-P-280 23rd June 2010

Thanks a lot for your attention CERN-INTC-2010-042, INTC-P-280 23rd June 2010

0.6 – 1 keV Isotope t1/2 (y) Inh. Coefficient (Sv/Bq) Authorization limit (LA) (Bq) Public protection (“1 mSv criterion”) 235U 7.04x108 2.56x10-13 800 3.9x109 Bq 4.9x107 mg 238U 4.47x109 2.38x10-13 900 4.2x109 Bq 3.4x108 mg 240Pu 6.56x103 4.10x10-12 200 2.44x108 Bq 28.9 mg 242Pu 3.74x105 3.93x10-12 2.54x108 Bq 1750 mg CERN-INTC-2010-042, INTC-P-280 23rd June 2010