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The Status of Nuclear Data above 20 MeV. Masayoshi SUGIMOTO, Tokio FUKAHORI Japan Atomic Energy Agency IAEA’s Technical Meeting on Nuclear Data Libraries for Advanced Systems: Fusion Devices (NuDL:FD) 31 October – 2 November 2007, Vienna. Target Nuclides and Priorites.
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The Status of Nuclear Data above 20 MeV Masayoshi SUGIMOTO, Tokio FUKAHORI Japan Atomic Energy Agency IAEA’s Technical Meeting on Nuclear Data Libraries for Advanced Systems: Fusion Devices (NuDL:FD) 31 October – 2 November 2007, Vienna
Target Nuclides and Priorites JAPAN ATOMIC ENERGY AGENCY Neutron & Proton File up to 3 GeV (Total: 132 nuclides) Nuclides with red color (66) : Released in March 2004 as JENDL/HE-2004 Nuclides with underline are revised for JENDL/HE-2007. Nuclides with blue color (36): Additionally Release in 2007 asJENDL/HE-2007
Evaluation Methods and Tools Total, Elastic Reaction X-sec. JAPAN ATOMIC ENERGY AGENCY GNASH ECIS OPTMAN JENDL/HE Transmission C. D.Inela. X-sec. Pre-equilibrium Statistical Cal. OM Cal. Isotope Prod. X-sec. Light Particle Spectra Fraction of MSD QMD+SDM JQMD JAM Isotope Prod. X-sec. Light Particle DDX Fission X-sec. INC+GEM Total, Elastic Reaction X-sec. TOTELA FISCAL Systematics Systematics E < 250 MeV E > 150 MeV
Newly Adopted are … JAPAN ATOMIC ENERGY AGENCY Simple folding potential parameter sets new Cluster Particle Emission Kalbach’s model made significant underestimation for cluster particle emission spectra. Iwamoto-Harada-Sato Preequilibrium Model (< 100 MeV) new OMP for Cluster Particles No global and wide energy range phenomenological potential parameter set previously Above are applied for 56Fe, Zr, Nb, W, Pb and Bi.
OMP for Cluster Particles JAPAN ATOMIC ENERGY AGENCY ×2 neutron Alpha-Particle Potential e.g. ) target Un(E/4) proton = target ×2 proton Ua(E) neutron target Potential for neutron and proton Up(E/4) Kunieda-Chiba-Shibata (2007) 1 keV-200 MeV, 26 < A < 238 Based on methods proposed by Madland Simple Folding Potential http://www.jstage.jst.go.jp/article/jnst/44/6/44_838/_article
Deuteron Elastic Scattering Exp. data Bojowald (`88) Present 208Pb 90Zr 120Sn 56Fe s/srth. Angle (deg.)
Triton Elastic Scattering Exp. data Becchetti (`69) Present 58Ni 89Y 208Pb 232Th s/srth. Angle (deg.)
He-3 Elastic Scattering Exp. data Present 58Ni 90Zr 120Sn 208Pb s/srth. Angle (deg.)
Total Absorption Cross Section Exp. 3He + 118Sn Present Becchetti Not Good
Alpha Elastic Scattering Exp. data Avrigeanu (`94) Present 64Zn s/srth. 208Pb 107Ag 92Mo Angle (deg.)
Inverse X-sec ( e.g.a Target ) a a Optical Model Ef Formation Factors Iwamoto-Harada-Sato Model 2p-1h State Preequilibrium Model for Cluster Particles Emission Rate of Cluster Particles
Fe(n,xa) Spectrum Sylpen+ (2004) ENDF/B-VII JEFF-3.1 This work En= 62.7 MeV
Pb(n,xa) Spectrum Blideanu+ (2004) ENDF/B-VII JEFF-3.1 This work En= 96 MeV
Fe(n,xa) Cross Section Baba+ (1994) Haight+ (2004) Present s(barn) JEFF-3.1 ENDF/B-VI JENDL-HE2004 Incident Neutron Energy (MeV) ENDF/B-VII adopts exp. data.
Sample of Evaluated Results Isotope production cross sections : 12C
Sample of Evaluated Results Isotope production cross sections : 12C, 27Al
Sample of Evaluated Results Isotope production cross sections : 56Fe
Sample of Evaluated Results Isotope production cross sections : 63,65Cu
Elastic scattering angular distributions : 28Si Sample of Evaluated Results Coupled Channel-Soft Rotator Model
Elastic scattering angular distributions : Fe Sample of Evaluated Results
DDXs of 90Zr(p,xn) Sample of Evaluated Results 120 MeV 160 MeV 90 MeV
Benchmark Calculation (TIARA Experiment) Experimental arrangement @ TIARA, JAERI “Transmission through shields of quasi-monoenergetic neutrons generated by 43- and 68-MeV proton” Ref.) N. Nakao et al., Nucl. Sci. Eng. 124, 228 (1996). H. Nakashima et al., Nucl. Sci. Eng. 124, 243 (1996). Neutron spectrum of p+7Li
JENDL High Energy File (JENDL/HE) Detector JAPAN ATOMIC ENERGY AGENCY 20 cm Neutron Beam by 43 MeV p+7Li 68 MeV p+7Li 20 cm 10- 200 cm Integral Experiment at TIARA Shield Iron Concrete Ref.) N. Nakao et al., Nucl. Sci. Eng. 124, 228 (1996). H. Nakashima et al., Nucl. Sci. Eng. 124, 243 (1996).
Integral Experiment at TIARA JAPAN ATOMIC ENERGY AGENCY (JENDL/HE-2007) Ep=68 MeV t=70 cm Ep=68 MeV t=100 cm
Benchmark Calculation (TIARA Experiment - Fe) Ep=68 MeV t=20 cm Ep=68 MeV t=40 cm
Benchmark Calculation (TIARA Experiment - Fe) Ep=43 MeV t=70 cm Ep=43 MeV t=40 cm
Benchmark Calculation (TIARA Experiment - Concrete) Ep=68 MeV t=100 cm Ep=68 MeV t=200 cm
Benchmark Calculation (TIARA Experiment - Concrete) Ep=68 MeV t=25 cm Ep=68 MeV t=50 cm
Benchmark Calculation (TIARA Experiment - Concrete) Ep=43 MeV t=25 cm Ep=43 MeV t=50 cm
Integral Experiment at RCNP JAPAN ATOMIC ENERGY AGENCY Experimental Set-up RCNP at Osaka Univ. (NE213 organic liquid scintillator) Proton Energy:250 and 350 MeV Target: Graphite, Al, Fe, Pb Target Thickness:full stop Measured Angle: 0 ° Flight Distance:11.4 m and 67.8 m (250MeV proton), 11.4 m and 95 m (350MeV proton)
Integral Experiment at RCNP JAPAN ATOMIC ENERGY AGENCY Case1: JENDL-HE vs. LA150 JENDL-HE: natC (including 13C) LA150 : 12C
Integral Experiment at RCNP JAPAN ATOMIC ENERGY AGENCY Case2: JENDL-HE with Bertini Parameterization vs. no INC
Application (Neutron Spectra Due to Cosmic-ray) Proton Proton (106 GeV) Shower in air Blue: neutron, proton, etc. Red: electron, photon, etc. Green: muon JAPAN ATOMIC ENERGY AGENCY Earth Atmosphere Model 30km Database for Cosmic-ray Environment ~12km Mt. Fuji (3.8km) PHITS JENDL/HE
Application (Neutron Spectra Due to Cosmic-ray) JAPAN ATOMIC ENERGY AGENCY Measured by Nakamura+ Present Simulation Present Formula Height 11.8km Height 11.8km Measured by Nakamura+ Present Simulation Height 4.88km See Level Neutron Flux Neutron Flux See Level Neutron Energy Neutron Energy Calculated Results
Summary JAPAN ATOMIC ENERGY AGENCY Reviewed were status of method and tools of the evaluation for JENDL High Energy File (JENDL/HE-2007).Especially, improvements of cluster-particle emission spectra and production cross sections. Results of some analyses using JENDL/HE were also introduced as those of benchmark calculations. The calculations using JENDL/HE show good performance. The first version of JENDL/HE (JENDL/HE-2004 ) has been released in March, 2004 with neutron and proton nuclear data of 66 nuclides up to 3 GeV. Soon, the second version of JENDL/HE (JENDL/HE-2007) will be released with those of totally over 100 nuclides including actinide ones.