Typel, S., JA 3 Tyutyunnikov, S., LA 5 Tzinganis, A., HA 5 Türler, Andreas, KE 3 Uddin, M.S., HB 1 Uehara, H., PB 2 Ullmann, J. L., LA 3, BA 1, GF 2, HB 3, LA 6, LA 7, LA 8, LF 8, OD 3, PA 3, PR 34 Uozumi, Y., PB 2 Urban, W., PD 1 Utsunomiya, Hiroaki, OF 3 Uyttenhove, Wim, PR 47 Vaglio-Gaudard, C., PR 85 Vaishnene, L.A., PD 5 Valencia, E., ND 4 Valenta, Stanislav, DF 8, OD 3 Valldor-Blücher, J., PR 56 van der Marck, Steven, RE 2 Van Isacker, Pieter, DD 3 Vanleeuw, D., PR 31 Varet, Suzanne, RC 2, PR 127 Varignon, C., GD 3, LF 1 Varlamov, Vladimir, PR 16, PR 87 Vascon, A., PR 68 Vasiliev, Alexander, LD 2, DE 7, PE 7, PR 134 Vayatis, N., PR 127, RC 2 Vaziri, Kamran, GC 4 Velkov, K., LC 4 Ventura, A., LF 4 Vermeulen, C., HD 6 Vidal, J-F., HE 1 Vidali, M., DE 5, PR 11, PR 51, RA 1 Vieira, D. J., BA 3, CF 2, LA 3, LA 8, OD 3 Vilaithong, T., PR 86 Villamarin, D., PR 19 Villari, R., JE 4 Visan, Iuliana, PR 103 Vivier, M., GD 3 Vlachoudis, V., HA 4, HA 5 Vlastou, R., HA 4, PA 8, PB 6, QA 2 Vlastou-Zanni, Rosa, PB 6 Vockenhuber, Christof, KE 3 Vogt, Ramona, OA 2, PR 117 Voinov, Alexander, HC 5, OF 4 Volev, Konstantin, CA 1, PR 133 Vonach, H., BF 2 Vondrasek, R., AA 2, KF 2 Vorobyev, A., BF 2 352 Vranas, P., DE 1 Vrban, B., PR 45 Wagner, A., LF 2, PR 68, PR 83 Wagner, V., LA 5 Wakabayashi, Y., HF 4, OA 4 Walker, B., JE 4 Walker, C. L., LA 8, OD 3 Wallner, Anton, KF 1, PR 64, PR 8, BF 2, HD 6, QA 2 Wallner, T., DB 3 Walter, D., OE 1 Walters, William, LB 4 Wang, E.H., OE 1 Wang, Jimin, PR 88, PR 118, PR 89 Wang, Meng, JA 3, PR 26, JA 1 Wang, Wenming, DE 8, PR 138 Wapstra, Aaldert H., LE 3 Wapstra*, Aaldert H., JA 1 Ware, Tim, PA 4 Watanabe, Yukinobu, JD 2, HC 6, JC 4, JE 3, OA 4, PB 8, PR 53, PR 86, PR 89 Watts, D., PR 83 Weidner, John, HB 2, HB 3 Weinreich, R., DB 3 Weiss, Christina, LB 7, PR 33 Wen, L.L., PR 138 Wen-gang, Jiang, HD 8 Wender, Stephen, JD 1, BA 1, BA 3, GF 2 White, Morgan, RE 1, BA 1, HF 5, KD 4, PD 8 Wiborg-Hagen, T., JF 2 Wiedeking, Mathis, DF 7, JF 2, OF 4 Wieleczko, J.P., LF 1 Wieselquist, William, PR 134 Wilbur, D.S., NF 4 Wildpaner, V., PR 107, PR 23 Wilhelmy, J. B., BA 3, CF 2, LA 3, OD 3 Williams, Ben, PR 77 Williams, David, LA 2, PR 52 Williams, Mark, RC 1 Wilson, J. N., FE 3, JF 2, OF 4 Winger, J.A., ND 3 Winkler, S., KF 1 Wiringa, R.B., BD 2 Wohlmuther, Michael, GE 4, KE 3 Wojciechowski, A., LA 5 Wojciechowski, M., PR 116 Wolinska-Cichocka, Marzena, HF 2, DD 4 Wolińska-Cichocka, M., OE 1
Wolińska-Cichocka, M., DD 2, HF 2, ND 3 Wood, Lynn, DA 6 Woods, Philip, LB 2 Workman, R.L., PR 106 Wouters, J. M., OD 3 Wright, Toby, PA 4 Wu, Ching-Yen, PR 34, BA 1, DA 7, GF 2, LA 3, LA 7, LF 8, OD 3, PA 3 Wu, Haicheng, PR 138, DE 8 Wynants, R., DB 1, PR 31 Xia, J.W., JA 3 Xiao, G.Q., JA 3, LD 3 Xiao-bing, He, HD 8 Xiaolong, Huang, DC 1 Xiaosong, Yan, GE 1 Xie, Feng, HD 8 Xinxin, Lu, GE 1 Xu, H.S., JA 3 Xu, Ruirui, DC 4, PR 122 Xu, Xing, JA 1, JA 3, PR 26 Xu, Yongli, PC 4, PR 102 Xue-song, Li, HD 8 Yahiro, Masanobu, JC 4 Yakorev, D., PR 83 Yakunin, Andrey, RE 4 Yamagata, T., OF 3 Yamaguchi, Hidetoshi, HD 7 Yamaguchi, T., JA 3 Yamaguchi, Y., JA 3 Yamano, Naoki, PE 2 Yan, X.L., JA 3 Yang, J.C., JA 3 Yang, Sung-Chul, PB 5, PR 61 Yang, Y., CF 3, OF 1 Yashima, Hiroshi, DB 2, DF 4, GC 4, KF 3 Yavshits, S.G., PD 5 Ye, R.P., JA 3 Ye, Tao, LD 3, PR 89, HC 6, PR 53 Yee, Ryan, HF 8, OE 3 Yeremin, A.V., OA 4 Yermia, F., GD 3, GD 4, RD 1 Yettou, Leila, PR 123 Ying, Yangjun, LD 3 Yiwei, Yang, GE 1 353 Youinou, Gilles, KF 2 Younes, Ali, PR 90 Younes, Walid, RA 3 Young, P. G., GA 2, PR 78 Yu, Baosheng, PR 100, PR 99 Yu, Weixiang, OF 1 Yuan, Y.J., JA 3 Zabransky, B.J., AA 2, HF 8, OE 3 Zadornov, Dmitry, PR 128 Zakari-Issoufou, A.-A., GD 4, RD 1 Zamora, F.G. Barrientos, PR 30 Zang, Y.D., JA 3 Zanini, Luca, GE 4 Zerkin, Viktor, PR 17, FA 1 Zerovnik, G., PR 73 Zeydina, O., PR 21 Zganjar, E.F., DD 2, DD 4, HF 2, ND 3, OE 1 Zhan, W.L., JA 3 Zhang, Guohui, PR 91 Zhang, H.Y., PR 138, PR 99 Zhang, Shi-Sheng, PR 6 Zhang, W., JA 3 Zhang, X.Y., JA 3 Zhang, Y.H., DC 4, JA 3 Zhang, Zhengjun, PR 22 Zhao, H.W., JA 3 Zhao, Q.J., PR 138 Zhao, T.C., JA 3 Zhao, Zhixiang, DC 4 Zheltonozhskii, V.A., PC 7 Zhigang, Ge, DC 1 Zhivun, V.M., KC 4 Zhongwei, Wen, GE 1 Zhou, X.H., JA 3 Zhu, S., BD 2, CD 1, HD 5, LB 2 Zhu, Ting, DE 7, PR 134, LD 2 Zhuang, Youxiang, PR 88 Zijie, Han, GE 1 Zolko, M.M., PR 114 Zuber, Kai, HD 6, PR 85, PR 93 Zwermann, W., LC 2, LC 4, NC 2 Zylstra, A.B., IA 2
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ND2013 2013 International Nuclear D
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Session BF Evaluated Nuclear Data L
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Session DD Nuclear Structure and De
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Hale, G. n+ 12 C Cross Sections fro
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Domula, A. New Nuclear Structure an
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Session KC Evaluated Nuclear Data L
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MacCormick, M. Survey and Evaluatio
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ments. Ivanova, T. Uncertainty Asse
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Arnold, C. Precision Velocity Measu
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19 Abridged Agenda Sunday March 4,
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21 Tuesday March 5, 2013 Time Met E
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23 Thursday March 7, 2013 Time Met
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Book of Abstracts Session AA ND2013
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multi-foil Parallel Plate Avalanche
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A Regional Coupled-channel Dispersi
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show the versatility of the code in
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[h] Table 1: Comparison of all the
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step was to determine which detecto
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In an effort to maintain the qualit
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Advances in Reactor Physics Linking
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sponsored the work presented in thi
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A revolutionary nuclear data system
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done in Ref. [1]. We demonstrate th
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CD 4 2:40 PM Development of a Syste
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with a central cavity where small s
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C. Arnold, E. Bond, T. Bredeweg, M.
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DA 3 4:20 PM Characterization and P
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detectors at the newly constructed
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Lead and lead-based alloys are - am
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of the setup. One option explored i
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DC 2 4:00 PM Improved Capture Gamma
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DC 5 5:00 PM Thermal Neutron Cross
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M.R. Gilbert, L.W. Packer, S. Lille
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Correlations Between Nuclear Charge
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Community’s 7th Framework Program
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we achieve very good separation of
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analysis of neutron leakage spectru
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a lower nuclear temperature than th
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Tungsten occurs naturally in five i
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for the combined use of integral ex
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in XUNDL and bibliographic informat
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former case, more realistic covaria
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WInfried Zwermann, Kiril Velkov, An
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LA-UR-12-23712 The ENDF/B-VII.1 [1,
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comparison of results C/E of fissio
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Session GA Evaluated Nuclear Data L
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Session GC accelerator applications
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Session GD Antineutrinos Tuesday Ma
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M. Fallot, S. Cormon, M.Estienne, V
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for extraction of very rare isotope
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and neutron multiplicity, informati
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as Monte Carlo simulations, and inc
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on its surface. The amplification t
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direction was recently used at n TO
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were chemically separated and the 2
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Strontium-82 Production at ARRONAX
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A. Guertin, C. Duchemin, F. Haddad,
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expected via an (n,γ) reaction. Pr
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Shinsuke Nakayama, Shouhei Araki, Y
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specific feature of the procedure e
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good timing characteristics.Example
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Materials and Measurements, Retiese
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derive reliable covariances from ta
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Concerns about the limits of worldw
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Accurate and reliable nuclear data
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Facility (HRIBF) at Oak Ridge Natio
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CALIFA, a Calorimeter for the R3B/F
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a modified Lorentzian model (MLO) o
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enchmark for existing atomic mass p
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A significant breakthrough in our t
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and the neutron and proton emission
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horizontal plane, the measured posi
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The high precision of recent measur
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Session JF Neutron Cross Section Me
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Alamos National Laboratory, Los Ala
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During more than four decades since
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KC 2 2:00 PM R-matrix Analysis for
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new covariance contributions to the
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importance in nuclear technology, a
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source SINQ (Swiss Spallation Neutr
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KF 2 2:00 PM MANTRA: An Integral Re
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J. P. Lestone, E. F. Shores Los Ala
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LA 5 5:00 PM Measurements relevant
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elow the neutron separation energy
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The A = 130 Solar-System r-process
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espectively, and identified approxi
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W. Zwermann Gesellschaft fuer Anlag
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LC 5 5:00 PM Uncertainty Study of N
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solving the quantum three-body prob
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Session LE Evaluated Nuclear Data L
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LE 5 5:00 PM Method of Best Represe
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for 89 fission products (representi
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Impact of the Energy Dependent DDXS
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from non 1/v behavior of nuclei. Mo
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evaluation (including covariances)
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system without isotope separation.
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NC 3 11:20 AM Propagation of Nuclea
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Results of the first complete compi
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Arjan Koning and Dimitri Rochman Nu
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calculating their mathematical mome
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The 33 S(n,α) cross section is of
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OA 2 2:00 PM Event-by-Event Fission
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available for ENDF/B-VII. The obser
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egions: the resolved resonances ran
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y the screening potential predicted
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[1] Y. Kojima et al., Nucl. Instr.
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y the emitted neutron. The Versatil
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enchmarking, the excitation functio
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PA 1 3:30 PM Investigation of Neutr
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as well as for a variety of Minor A
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Society, Vol. 59, No. 2, August 201
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A. Hermanne, R. Adam-Rebeles Cyclot
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We measured the isomeric yield rati
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the trends in the experimental data
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However, experiments often measure
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Statistical description of the gamm
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fragments formed are highly neutron
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F. Farget, J. Pancin GANIL, Caen, F
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ZPR-6/10 cores were applied as comp
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each nucleus in agreement with unce
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atios) is performed. In relation to
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school in science or engineering. I
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programs demanding only one compuls
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gamma-ray spectra will be theoretic
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RA 3 11:20 AM A Microscopic Theory
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Laboratory, Oak Ridge, Tenn., Novem
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Session RD Safeguards and Security
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Seeking Reproducibility in Fast Cri
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RE 4 11:40 AM Verification of Curre
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that a lot of them generally descri
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R. Hirschi, A. Hungerford, G. Magko
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- a density of levels too low for w
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the MONTEBURNS(1.0)-MCNP5-ORIGEN(2.
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The Nuclear Science References (NSR
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and applications using statistical
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Shielding objects are assembled fro
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The knowledge of neutron-induced re
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thus for the second time after the
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the global children health and cons
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Lawrence Livermore National Laborat
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The Russian Nuclear Data Library fo
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OECD Nuclear Energy Agency consider
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For experimental determination of t
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The European Activation SYstem has
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Neutron capture measurements of dys
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[1] H. Penttilä, P. Karvonen, T. E
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Measurement of Activation Cross Sec
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PR 66 Processing and Validation of
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law of the temperature ratio (RT =
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PR 74 Resonance Analysis of the 233
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- Page 338 and 339: Dunn, M. E., BF 4, RC 3 Dupont, Emm
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- Page 344 and 345: Lehaut, G., PD 6 Leinweber, Greg, L
- Page 346 and 347: Munkhsaikhan, J., HC 7 Mura, Luis F
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