Prael, Richard E., PE 5 Praena, Javier, LB 5, LF 4, NF 3, PR 41 Prete, G., LF 4 Previtali, Ezio, RE 3 Prido, F., PR 127 Prieels, R., PD 5 Priller, A., PR 64 Primenko, G.I., PR 59 Prinja, A.K., FC 3, PR 132 Pritychenko, Boris, LE 4, PR 14, PR 95, AA 1, KA 3, PR 13 Prokofiev, Alexander, DB 6, PB 8, PR 56, PR 86 Pronayev, Vladimir, CA 1 Prono, G., GD 3 Pronost, G., GD 3 Pronskikh, Vitaly, GC 3 Pronyaev, V.G., BF 2, QA 2 Pshenichnov, Igor, PR 80 Puente-Espel, F., LC 4 Pysz, K., PR 116 Pépino, A., PR 35 Pérez, D., RA 4 Péru, S., PR 108 Qaim, S.M., HB 1 Qian, Jing, DC 3, PR 104 Qiu, Y., HD 5 Quaglioni, S., GA 4, IA 2 Quesada, J. M., BC 1, LB 5, NF 3, PR 115, PR 41 Quesada Molina, Jose Manuel, PR 115 Raabe, R., OD 1 Raciti, G., PB 4 Radha, P.B., IA 2 Raffanel, D., PR 21 Rahaman, S., KD 3 Raiola, F., OE 1 Rakopoulos, V., PD 3, PR 56 Ralston, James, PR 55 Ramayya, A.V., DD 2, DD 4, ND 3 Ramillon, J. M., LF 1 Ramirez Avila, Gonzalo Marcelo, PR 30 Randrup, J., OA 2, PR 117 Rao, R., PR 83 Rapisarda, E., PB 4 Rapp, Michael, LA 2, NA 4 Rasco, B.C., DD 2, DD 4, HF 2 Rasco, C., OE 1 Raskach, Kirill, PR 131 Ratkeiwicz, A., PR 75 348 Ratkiewicz, A., JF 4, OE 1 Rauscher, Thomas, LB 1 Ravn, H., GE 4 Rearden, B. T., RC 1 Regan, Patrick, HD 3, PR 49 Regis, J.-M., PD 1 Regnier, D., OA 3, PR 41, PR 69 Rego, M. E., BC 3 Reifarth, Rene, LB 3, OC 2, OD 3, QA 2 Rejmund, F., LF 1 Rekstad, J., OF 4 Renard, C., GD 3 Renstrom, T., JF 2, OF 4 Ressler, J.J., HC 3 Revay, Zsolt, PR 60, DC 2, DF 1, DF 2, DF 5, DF 6 Ricciardi, M.V., RA 4 Rice, S., HD 3 Richard, Benoit, PR 10 Ridikas, D., LF 1 Riego, A., ND 4 Rigalleau, L.M., GD 3 Ring, Terry A., BE 3 Rinta-Antila, S., KD 3, PD 3, PR 56, PR 84 Rising, Michael, FC 3, PR 132, PR 78 Rissanen, J., ND 4, PB 1 Rizea, M., RA 2 Ro, Tae-Ik, PR 52 Roberts, O.J., HD 3 Robertson, K.A., LE 6 Rochman, Dimitri, NC 2, CC 1, HE 7, JE 1, LC 5, MA 1, NC 3, NC 4, NE 1, PR 134, RE 2 Rogers, Andrew, LB 6, DC 2, DF 1, HD 5 Roig, Olivier, LA 6, JF 2 Romain, P., PR 85 Romano, F., PB 4 Romero, E. Gonzalez, PR 84 Rong, Liu, GE 1 Rooijen, W.F.G. van, PE 2 Rose, S.J., JF 2, OF 4 Ross, T.J., HC 3, JF 4 Rossbach, Matthias, DF 2, DC 2 Rosse, B., LF 1 Rossi, D., OC 2 Roubtsov, Dan, LD 1, PR 83 Rouki, C., GF 4, HD 6, OB 4, PR 84, PR 85 Rousseau., M., HB 4 Rovenskykh, E.P., PC 7, PR 114
Roy, D., GD 3 Rozhikhin, Yevgeny, RE 4 Ruan, Xichao, OF 1 Rubchenya, V., KD 3 Rubery, Mike, PR 77 Rubio, Berta, OD 1, ND 4 Rudigier, M., PD 1 Rudolf, G., LF 1 Rudy, Z., PR 116 Ruirui, Xu, DC 1 Rundberg, R. S., CF 2, LA 3, LA 6, LA 8, OD 3 Rusev, G., CF 2, DB 4, LA 8, PA 3 Ruskov, I., PR 11 Ryan, C., CF 2 Rygg, J.R., IA 2 Rykaczewski, Krzysztof, HD 1, DD 2, DD 4, HF 2, ND 3, OE 1 Ryzhov, I.V., KD 3, PD 5 Röttger, S., PR 83 Saastamoinen, A., PB 1, PR 75 Sabaté-Gilarte, M., NF 3 Sabouri, Pouya, FC 4 Sage, Christophe, PD 7, HF 1, PD 1 Saint-Jean, C. De, EA 1 Saint-Laurent, M.G., HB 4 Sakama, Minoru, NF 2 Sakamoto, Yukio, GC 4 Salminen-Paatero, S., PB 1 Salvador, P., RA 1 Salvador-Castineira, P., PR 51 Salvatores, Massimo, EA 1, KF 2, OB 1, OB 2, PR 37, PR 78, PR 82 Salvini, Andrea, RE 3 Sanami, Toshiya, FF 1, PB 2 Sangster, T.C., IA 2 Santamarina, Alain, HE 1 Santos, Adimir, GE 2 Santos, C., PR 19 Santos, F. de Oliveira, LB 6 Sarazin, F., OE 1 Sardina, D., PB 4 Saro, S., OA 4 Sarti, A., PB 4 Sasa, T., LC 3 Sato, Satoshi, HE 5 Sato, Tatsuhiko, HC 1 Satoh, D., PB 2 Satterlee, N., DE 1 349 Sauvan, P., JE 1 Sava, T., DB 8, HD 3 Savard, Guy, AA 2, CD 1, HD 5, HF 8, LB 6, OE 3 Sawan, Mohamed, JE 4, JE 3 Saxena, A., JF 1 Sayer, D., PR 28 Sayler, Benedict, PR 72 Schatz, H., JA 3 Schelt, J. Van, AA 2, HF 8, OE 3 Schier, Walter, RD 2 Schillebeeck, Peter, CA 1 Schillebeeckx, Peter, CA 1, PR 133, PR 31, BF 2, DB 1, DC 7, HA 8, LF 3, NA 2, PR 1, PR 125, PR 54, PR 84 Schiller, A., OF 4 Schmidt, K.-H., RA 4 Schmitt, C., RA 4 Schmitt, K.T., OE 1 Schnabel, G., FC 1, PR 107, PR 23 Scholten, B., HB 1 Schumann, Dorothea, DB 3, GE 3, GE 4, KE 3, PR 64 Schunck, N., RA 3 Schwengner, R., DB 7, LF 2, PR 68, PR 83 Scian, Giovanni, DB 6 Scielzo, Nicholas, OE 3, DF 7, HC 3, HF 8, JF 4 Sciubba, A., PB 4 Scola, L., GD 3 Scuderi, V., PB 4 Sedysheva, M. V., HC 7, PR 91 Segel, R.E., HF 8, OE 3 Sekimoto, Shun, DF 4, GC 4 Semenov, Mikhail, PR 46, RE 4, PR 136 Semkova, V., KA 3, PR 64, QA 2 Serikov, Arkady, BE 4 Serot, Olivier, PD 1, PR 69, JF 2, LF 1, OA 3, PR 112, PR 41 Setoodehnia, Kiana, HD 7 Seweryniak, D., BD 2, CD 1, HD 5, LB 2, LB 6 Seya, M., PR 125, RD 3 Sfienti, C., PB 4 Shah, K., PR 29 Shand, C., JF 4 Sharapov, E. I., HE 3 Sharma, K.S., HF 8, OE 3 Sharma, Sushil, PR 116 Shcherbina, Natalia, KE 3 She, Ruogu, LD 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 338 and 339: Dunn, M. E., BF 4, RC 3 Dupont, Emm
- 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 350 and 351: Sheets, S., CF 2 Shen, Qingbiao, PC
- Page 352 and 353: Typel, S., JA 3 Tyutyunnikov, S., L