Dunn, M. E., BF 4, RC 3 Dupont, Emmeric, KA 1, PR 21, BF 1, EA 1, JE 1, KA 3, PR 15 Duran, I., FE 3 Durán, I., HA 7, PA 6 Dzysiuk, N.R., LF 4, PR 59 Díez, C. J., HE 6 Eastwood, James, PR 48 Eberhardt, K., PR 68 Ebran, A., LA 6, PD 1 Ecrabet, F., OB 3 Elekes, Z., LF 2, PR 68 Elnimr, M., GD 4, RD 1 Elomaa, V-V., KD 3 ELSAIED, Mohamed A., PR 39, PR 39 Emiliani, Federica, CA 1 Ene, Daniela, KE 2, PR 105 Engle, Jonathan, HB 3, HB 2, NF 4 Enqvist, T., RA 4 Enriquez, J.L. Tain, PR 62 Eronen, T., KD 3, ND 4 Eschbach, R., PR 35 Escher, Jutta E., HC 3, PR 101, DC 2, DF 1, DF 2, DF 5, DF 6, GA 4, JF 4, PR 120, PR 121 Estienne, Magali, GD 4, RD 1 et, al., AA 1 Eykens, R., PR 31 Eynde, Gert Van den, PR 1, PR 47 F. da Cruz, Dirceu, NC 4 Fallin, B.A., CF 2, DB 4 Fallon, P., DF 7 Fallot, Muriel, GD 1, GD 3, GD 4, GE 4, LF 1, RD 1 Fan, Tieshuan, PR 22 Fan, Xiao, PR 91 Fang, K.H., OC 4 Farget, F., PD 6, PR 84, RA 4 Farouqi, K., LB 4 Fassbender, Michael, NF 4, HB 3 Faust, Herbert, HF 1, PD 1, PD 7 Federico, C. A., PR 126 Feldman, Gerald, RF 2 Feng, Jing, CF 3 Feng, Xie, HD 8 Ferid, Haddad, HB 7 Fernandez, M., RA 4 Ferragut, Francesco, FC 4 Ferran, Ghislain, PE 6 338 Ferrari, Alfredo, NF 1 Ferroukhi, Hakim, PE 7, DE 7, LD 2, PR 134 Fidelus, M., PR 116 Fifield, L.K., KF 1 Fijalkowska, Aleksandra, DD 4, DD 2, HF 2, ND 3 Fija̷lkowska, A., OE 1 Filges, D., PR 116 Filipescu, D., DB 8, HD 3 Finch, S.W., DB 4 Finck, C., HB 4 Firestone, Richard B., DF 1, PR 3, DC 2, DF 5, DF 6, DF 7, PR 60 Fischer, S.M., LB 6 Fischer, Ulrich, JE 1, BE 4, BF 1, BF 3, CC 3, JE 3, JE 4, LF 1, PR 105 Fischer, V., GD 3 Fontbonne., J.M., HB 4 Forget, B., DC 7 Forrest, C., IA 2 Forrest, Robin, FA 1, JE 3, AA 1, KA 1 Forstner, O., PR 64 Fort, E., PR 112 Fotiades, N., BA 1, BA 2, DA 7, FF 3, GF 2, HD 2, JF 4 Fotiadis, Nikolaos, FF 3, LF 8 Foucher, Y., GE 4 Fowler, M., CF 2 Franberg, J. Eikenberg. H., GE 4 France, G. de, LB 6 Frantiˇsek, Bečváˇr, DF 8 Fraval, Kevin, PA 2 Frenje, J.A., IA 2 Fresneau, S., HB 6 Fruehwirth, R., PR 129 Frybort, Jan, PR 40 Fuga, Rinaldo, GE 2 Fujii, T., GF 3, NA 1 Fujita, H., OD 1 Fujita, Y., OD 1 Fukahori, T., KA 1, KC 2 Fukuoka, Shota, HD 7 Fukushima, Masahiro, PE 1 Fukutani, S., GF 3, NA 1 Fursov, B., QA 2 Furutaka, K., BA 4, GF 3, HF 4, JF 3, KF 3, LF 5, NA 1 Fusco, V. de, DE 2 Fülöp, Zsolt, LB 1, PR 7
Gaffiot, J., GD 3 Gaheen, Mohamed A., PR 39 Gallner, L., LC 4 Galvan, A. Perez, OE 3 Ganesan, S., HE 4 Ganioglu, E., OD 1 Garcia, A.R., ND 4, PR 19 García-Herranz, Nuria, HE 6 Gardner, Matt, PR 77 Gascon, M., OD 1 Gauld, Ian, DE 6 Gavillet, D., GE 4 Gavron, A., BA 3 Ge, Zhigang, DC 1, DC 4, KA 1, PR 104 Geduld, D., HD 6 Geerts, G., DE 5 Gehre, D., HD 6 Gelletly, W., OD 1 Geng, P., JA 3 Genreith, Ch., DC 2, DF 2 Gentile, A., PR 56 Gerbaux, M., OD 1 Geslot, B., PR 35 Gheorghe, Adriana - Ioana, DB 8 Ghita, D. G., DB 8, HD 3 Giacoppo, F., JF 2, OF 4, PB 4 Gilbert, Mark, DC 8, PR 36 Gillette, Victor H., PR 42 Giomataris, Y., HA 5 Giorginis, G., PR 11 Giot, L., GD 3, GD 4, LF 1, RA 4, RD 1 Giovinazzo, J., LB 6, OD 1 Giubrone, G., PR 62 Glass, C. R., LD 4 Glebov, V. Yu, IA 2 Gledenov, Yu. M., HC 7, PR 91 Glodariu, T., DB 8, HD 3 Glodo, J., PR 29 Goans, R., DD 2, DD 4 Goebel, K., OC 2 Goergen, A., JF 2 Goetz, K.C., DD 2, DD 4 Gogny, D., RA 3 Goko, S., GF 3, NA 1 Goldblum, B.L., DF 7 Goldenbaum, F., PR 116 Golovko, Yury, PR 128, RE 4 Golser, R., PR 64 339 Gomez, F., GD 3 Goncalez, O. L., PR 126 Goncalves, I., PR 84 Gondolo, Paolo, OC 1 Gonzalez, E., DE 2 Gonzalez-Romero, Enrique, CE 4 Gonzälez, J. S. Martínez, LC 4 Gooden, Matthew, DB 4, CF 2, HF 3 Gorbachenko, O.M., PC 7, PR 114, PR 59 Gorelov, D., KD 3, PD 3, PR 56 Goriely, S., CC 2, OF 3, PR 108, PR 85 Gorska, M., OD 1 Gosalvez, A.O. Munoz, PR 30 Gosselin, G., LE 2 Gostic, J. M., BA 1, GF 2, LA 7, PA 3, PR 34 Goswami, A., KD 2 Gotz, M., PR 32 Gould, Christopher, HE 3 Gramegna, F., LF 4 Granada, J.R., DC 5, LE 7 Granelli, R., GD 3 Granier, T., BA 3, LF 1 Grebosz, J., OD 1 Greene, J. P., BD 2, CD 1, HD 5, HF 8, OE 3 Greenlees, P., HD 5 Greiner, Walter, PR 80 Grevy, S., LB 6, OD 1 Griesmayer, E., PR 33 Grimberg, A., GE 4 Grimes, Steven M., HC 5, LF 7, PR 28, PR 55 Groeschel, F., GE 4 Gromova, E., PB 1 Gross, C.J., DD 2, DD 4, HF 2, ND 3, OE 1 Grosse, E., PR 83 Grosse*, E., LF 2 Gruel, A., PR 35 Grunert, Megan L., PF 3 Grzywacz, Robert, OE 1, DD 2, DD 4, HF 2, ND 3 Guber, K. H., NA 2, BF 4, DC 7 Gudima, Konstantin K., PR 109 Guerrero, Carlos, PA 1, PR 41, HA 2, HA 4, HA 5, HA 6, LB 3, LB 7, PA 4, PR 33, PR 84 Guertin, Arnaud, HB 8, GE 4 Guess, C.J., PR 29 Guillamet, M., HB 6 Guillous, S., LF 1 Guilloux, G., GD 3 Gulick, S., OE 3
- Page 1 and 2:
ND2013 2013 International Nuclear D
- Page 3 and 4:
Session BF Evaluated Nuclear Data L
- Page 5 and 6:
Session DD Nuclear Structure and De
- Page 7 and 8:
Hale, G. n+ 12 C Cross Sections fro
- Page 9 and 10:
Domula, A. New Nuclear Structure an
- Page 11 and 12:
Session KC Evaluated Nuclear Data L
- Page 13 and 14:
MacCormick, M. Survey and Evaluatio
- Page 15 and 16:
ments. Ivanova, T. Uncertainty Asse
- Page 17 and 18:
Arnold, C. Precision Velocity Measu
- Page 19 and 20:
19 Abridged Agenda Sunday March 4,
- Page 21 and 22:
21 Tuesday March 5, 2013 Time Met E
- Page 23 and 24:
23 Thursday March 7, 2013 Time Met
- Page 26 and 27:
Book of Abstracts Session AA ND2013
- Page 28 and 29:
multi-foil Parallel Plate Avalanche
- Page 30 and 31:
A Regional Coupled-channel Dispersi
- Page 32 and 33:
show the versatility of the code in
- Page 34 and 35:
[h] Table 1: Comparison of all the
- Page 36 and 37:
step was to determine which detecto
- Page 38 and 39:
In an effort to maintain the qualit
- Page 40 and 41:
Advances in Reactor Physics Linking
- Page 42 and 43:
sponsored the work presented in thi
- Page 44 and 45:
A revolutionary nuclear data system
- Page 46 and 47:
done in Ref. [1]. We demonstrate th
- Page 48 and 49:
CD 4 2:40 PM Development of a Syste
- Page 50 and 51:
with a central cavity where small s
- Page 52 and 53:
C. Arnold, E. Bond, T. Bredeweg, M.
- Page 54 and 55:
DA 3 4:20 PM Characterization and P
- Page 56 and 57:
detectors at the newly constructed
- Page 58 and 59:
Lead and lead-based alloys are - am
- Page 60 and 61:
of the setup. One option explored i
- Page 62 and 63:
DC 2 4:00 PM Improved Capture Gamma
- Page 64 and 65:
DC 5 5:00 PM Thermal Neutron Cross
- Page 66 and 67:
M.R. Gilbert, L.W. Packer, S. Lille
- Page 68 and 69:
Correlations Between Nuclear Charge
- Page 70 and 71:
Community’s 7th Framework Program
- Page 72 and 73:
we achieve very good separation of
- Page 74 and 75:
analysis of neutron leakage spectru
- Page 76 and 77:
a lower nuclear temperature than th
- Page 78 and 79:
Tungsten occurs naturally in five i
- Page 80 and 81:
for the combined use of integral ex
- Page 82 and 83:
in XUNDL and bibliographic informat
- Page 84 and 85:
former case, more realistic covaria
- Page 86 and 87:
WInfried Zwermann, Kiril Velkov, An
- Page 88 and 89:
LA-UR-12-23712 The ENDF/B-VII.1 [1,
- Page 90 and 91:
comparison of results C/E of fissio
- Page 92 and 93:
Session GA Evaluated Nuclear Data L
- Page 94 and 95:
Session GC accelerator applications
- Page 96 and 97:
Session GD Antineutrinos Tuesday Ma
- Page 98 and 99:
M. Fallot, S. Cormon, M.Estienne, V
- Page 100 and 101:
for extraction of very rare isotope
- Page 102 and 103:
and neutron multiplicity, informati
- Page 104 and 105:
as Monte Carlo simulations, and inc
- Page 106 and 107:
on its surface. The amplification t
- Page 108 and 109:
direction was recently used at n TO
- Page 110 and 111:
were chemically separated and the 2
- Page 112 and 113:
Strontium-82 Production at ARRONAX
- Page 114 and 115:
A. Guertin, C. Duchemin, F. Haddad,
- Page 116 and 117:
expected via an (n,γ) reaction. Pr
- Page 118 and 119:
Shinsuke Nakayama, Shouhei Araki, Y
- Page 120 and 121:
specific feature of the procedure e
- Page 122 and 123:
good timing characteristics.Example
- Page 124 and 125:
Materials and Measurements, Retiese
- Page 126 and 127:
derive reliable covariances from ta
- Page 128 and 129:
Concerns about the limits of worldw
- Page 130 and 131:
Accurate and reliable nuclear data
- Page 132 and 133:
Facility (HRIBF) at Oak Ridge Natio
- Page 134 and 135:
CALIFA, a Calorimeter for the R3B/F
- Page 136 and 137:
a modified Lorentzian model (MLO) o
- Page 138 and 139:
enchmark for existing atomic mass p
- Page 140 and 141:
A significant breakthrough in our t
- Page 142 and 143:
and the neutron and proton emission
- Page 144 and 145:
horizontal plane, the measured posi
- Page 146 and 147:
The high precision of recent measur
- Page 148 and 149:
Session JF Neutron Cross Section Me
- Page 150 and 151:
Alamos National Laboratory, Los Ala
- Page 152 and 153:
During more than four decades since
- Page 154 and 155:
KC 2 2:00 PM R-matrix Analysis for
- Page 156 and 157:
new covariance contributions to the
- Page 158 and 159:
importance in nuclear technology, a
- Page 160 and 161:
source SINQ (Swiss Spallation Neutr
- Page 162 and 163:
KF 2 2:00 PM MANTRA: An Integral Re
- Page 164 and 165:
J. P. Lestone, E. F. Shores Los Ala
- Page 166 and 167:
LA 5 5:00 PM Measurements relevant
- Page 168 and 169:
elow the neutron separation energy
- Page 170 and 171:
The A = 130 Solar-System r-process
- Page 172 and 173:
espectively, and identified approxi
- Page 174 and 175:
W. Zwermann Gesellschaft fuer Anlag
- Page 176 and 177:
LC 5 5:00 PM Uncertainty Study of N
- Page 178 and 179:
solving the quantum three-body prob
- Page 180 and 181:
Session LE Evaluated Nuclear Data L
- Page 182 and 183:
LE 5 5:00 PM Method of Best Represe
- Page 184 and 185:
for 89 fission products (representi
- Page 186 and 187:
Impact of the Energy Dependent DDXS
- Page 188 and 189:
from non 1/v behavior of nuclei. Mo
- Page 190 and 191:
evaluation (including covariances)
- Page 192 and 193:
system without isotope separation.
- Page 194 and 195:
NC 3 11:20 AM Propagation of Nuclea
- Page 196 and 197:
Results of the first complete compi
- Page 198 and 199:
Arjan Koning and Dimitri Rochman Nu
- Page 200 and 201:
calculating their mathematical mome
- Page 202 and 203:
The 33 S(n,α) cross section is of
- Page 204 and 205:
OA 2 2:00 PM Event-by-Event Fission
- Page 206 and 207:
available for ENDF/B-VII. The obser
- Page 208 and 209:
egions: the resolved resonances ran
- Page 210 and 211:
y the screening potential predicted
- Page 212 and 213:
[1] Y. Kojima et al., Nucl. Instr.
- Page 214 and 215:
y the emitted neutron. The Versatil
- Page 216 and 217:
enchmarking, the excitation functio
- Page 218 and 219:
PA 1 3:30 PM Investigation of Neutr
- Page 220 and 221:
as well as for a variety of Minor A
- Page 222 and 223:
Society, Vol. 59, No. 2, August 201
- Page 224 and 225:
A. Hermanne, R. Adam-Rebeles Cyclot
- Page 226 and 227:
We measured the isomeric yield rati
- Page 228 and 229:
the trends in the experimental data
- Page 230 and 231:
However, experiments often measure
- Page 232 and 233:
Statistical description of the gamm
- Page 234 and 235:
fragments formed are highly neutron
- Page 236 and 237:
F. Farget, J. Pancin GANIL, Caen, F
- Page 238 and 239:
ZPR-6/10 cores were applied as comp
- Page 240 and 241:
each nucleus in agreement with unce
- Page 242 and 243:
atios) is performed. In relation to
- Page 244 and 245:
school in science or engineering. I
- Page 246 and 247:
programs demanding only one compuls
- Page 248 and 249:
gamma-ray spectra will be theoretic
- Page 250 and 251:
RA 3 11:20 AM A Microscopic Theory
- Page 252 and 253:
Laboratory, Oak Ridge, Tenn., Novem
- Page 254 and 255:
Session RD Safeguards and Security
- Page 256 and 257:
Seeking Reproducibility in Fast Cri
- Page 258 and 259:
RE 4 11:40 AM Verification of Curre
- Page 260 and 261:
that a lot of them generally descri
- Page 262 and 263:
R. Hirschi, A. Hungerford, G. Magko
- Page 264 and 265:
- a density of levels too low for w
- Page 266 and 267:
the MONTEBURNS(1.0)-MCNP5-ORIGEN(2.
- Page 268 and 269:
The Nuclear Science References (NSR
- Page 270 and 271:
and applications using statistical
- Page 272 and 273:
Shielding objects are assembled fro
- Page 274 and 275:
The knowledge of neutron-induced re
- Page 276 and 277:
thus for the second time after the
- Page 278 and 279:
the global children health and cons
- Page 280 and 281:
Lawrence Livermore National Laborat
- Page 282 and 283:
The Russian Nuclear Data Library fo
- Page 284 and 285:
OECD Nuclear Energy Agency consider
- Page 286 and 287:
For experimental determination of t
- Page 288 and 289: The European Activation SYstem has
- Page 290 and 291: Neutron capture measurements of dys
- Page 292 and 293: [1] H. Penttilä, P. Karvonen, T. E
- Page 294 and 295: Measurement of Activation Cross Sec
- Page 296 and 297: PR 66 Processing and Validation of
- Page 298 and 299: law of the temperature ratio (RT =
- Page 300 and 301: PR 74 Resonance Analysis of the 233
- Page 302 and 303: Study of Various Potentials in Heav
- Page 304 and 305: experimental data and for the produ
- Page 306 and 307: fuel cycle impose tight requirement
- Page 308 and 309: they do not satisfy (for example, b
- Page 310 and 311: Differential Cross Sections for the
- Page 312 and 313: extends the previous evaluation and
- Page 314 and 315: various benchmark tests. The mainly
- Page 316 and 317: PR 104 Evaluations for n+ 54,56,57,
- Page 318 and 319: PR 109 Recent LAQGSM Developments a
- Page 320 and 321: PR 113 Modelling of Spallation Sour
- Page 322 and 323: Jagiellonian University, Reymonta 4
- Page 324 and 325: PR 120 Coupled-Channel Models of Di
- Page 326 and 327: PR 124 Nuclear Data Evaluation and
- Page 328 and 329: physicist. - There is no perfect se
- Page 330 and 331: Manturov, M.N. Nikolaev, A.M. Tsibo
- Page 332 and 333: Vasiliev, W. Wieselquist and H. Fer
- Page 334 and 335: Author Index 1, Vojtěch Rypar, PR
- Page 336 and 337: HF 5, KD 4, LA 3, LA 6, LA 7, LA 8,
- Page 340 and 341: Gulliford, Jim, CE 1 Gunsing, Frank
- Page 342 and 343: Kahl, David, HD 7 Kahler, A. C., CA
- Page 344 and 345: Lehaut, G., PD 6 Leinweber, Greg, L
- Page 346 and 347: Munkhsaikhan, J., HC 7 Mura, Luis F
- Page 348 and 349: Prael, Richard E., PE 5 Praena, Jav
- Page 350 and 351: Sheets, S., CF 2 Shen, Qingbiao, PC
- Page 352 and 353: Typel, S., JA 3 Tyutyunnikov, S., L