Issue
EPJ Nuclear Sci. Technol.
Volume 7, 2021
A tribute to Massimo Salvatores' scientific work
Article Number E1
Number of page(s) 4
DOI https://doi.org/10.1051/epjn/2021009
Published online 24 May 2021
  1. M. Salvatores et al., ZPR-6 initial plate-rod heterogeneity measurements, Trans. Am. Nucl. Soc. 14, 18 (1971) [Google Scholar]
  2. B.A. Zolotar, M. Salvatores, B.M. Bingman, E.E. Lewis, A comparative study of heterogeneity treatments for ZPR plate cells, Trans. Am. Nucl. Soc. 14, 848 (1971) [Google Scholar]
  3. P.H. Kier, M. Salvatores, The effect of local flux distortions on the Doppler effect of small fissile samples, Nucl. Sci. Eng. 53, 479–482 (1974) [Google Scholar]
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  5. M. Salvatores, Adjustment of multigroup neutron cross sections by a correlation method, Nucl. Sci. Eng. 50, 345–353 (1973) [Google Scholar]
  6. A. Gandini, G. Palmiotti, M. Salvatores, Equivalent generalized perturbation theory (EGPT), Ann. Nucl. Energy 13, 109–114 (1986) [Google Scholar]
  7. A. Gandini, M. Salvatores, L. Tondinelli, New developments in generalized perturbation methods in the nuclide field, Nucl. Sci. Eng. 62, 339–345 (1977) [Google Scholar]
  8. A. Gandini, M. Salvatores, Nuclear data and integral measurements correlation for fast reactors-part 3: the consistent method, RT/FI(74)3, ComitatoNazionale per l'Energia Nucleare, Rome (1974) [Google Scholar]
  9. A. D'Angelo, A. Oliva, G. Palmiotti, M. Salvatores, S. Zero, Consistent utilization of shielding benchmark experiments, Nucl. Sci. Eng. 65, 477–491 (1978) [Google Scholar]
  10. M. Salvatores, G. Aliberti, G. Palmiotti, The role of differential and integral experiments to meet requirements for improved nuclear data, in: ND 2007: International Conference on Nuclear Data for Science and Technology, 22–27 April, Nice, France, Vol. 2, pp. 883– 886, 2008 [Google Scholar]
  11. G. Youinou, R. Vondrasek, H. Veselka, M. Salvatores, M. Paul, R. Pardo, G. Palmiotti, T. Palchan, O. Nusair, J. Nimmagadda, C. Nair, P. Murray, T. Maddock, S. Kondrashev, F.G. Kondev, W. Jones, G. Imel, C. Glass, J. Fonnesbeck, J. Berg, W. Bauder, MANTRA: an integral reactor physics experiment to infer actinide the neutron capture cross sections of actinides and fission products in fast and epithermal spectra, Nucl. Data Sheets 119, 169–172 (2014) [Google Scholar]
  12. G. Palmiotti, M. Salvatores, Use of integral experiments in the assessment of large liquid-metal fast breeder reactor basic design parameters, Nucl. Sci. Eng. 87, 333–348 (1984) [Google Scholar]
  13. M. Salvatores et al., A First Analysis of Selected Neutronics Experiments at Superphénix1 Start-up, in: International Topical Meeting on Advances in Reactor Physics, Mathematics and Computation, Paris, France, April 1987 [Google Scholar]
  14. M. Salvatores, M. Carta, R. Soule, Power reactor and critical experiment heterogeneity effects assessment for bias factors definition, Nucl. Sci. Eng. 100, 1–15 (1988) [Google Scholar]
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  16. J.C. Gauthier, J.C. Cabrillat, G. Palmiotti, M. Salvatores, M. Giese, M. Carta, J.P. West, Measurement and predictions of control rod worth, Nucl. Sci. Eng. 106, 18–29 (1990) [Google Scholar]
  17. M. Carta, G. Granget, G. Palmiotti, M. Salvatores, R. Soule, Control rod heterogeneity effects in liquid-metal fast breeder reactors: method developments and experimental validation, Nucl. Sci. Eng. 100, 269–276 (1988) [CrossRef] [Google Scholar]
  18. R. Soule, G. Granger, J.C. Gauthier, J.C. Cabrillat, M. Martini, G. Palmiotti, M. Salvatores, D. Calamand, A. D'Angelo, The BALZAC program: summary of the comparison between the main calculated and experimental results, in: PHYSOR-90 International Conference on the Physics of Reactors, Marseille, France, 23–27 April 1990 [Google Scholar]
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  20. A. Vasile, G. Vambenepe, J.C. Lefevre, K. Hesketh, W. Maschek, Ch. De Raedt, D. Haas, The CAPRA − CADRA Programme, ICONE 8, 2–6 April 2000, Baltimore, MD USA [Google Scholar]
  21. C. Prunier, M. Salvatores, J.F. Babelot, J. van Geel et al., Target development and transmutation experiments in the frame of the EFTTRA European collaboration, in: International Topical Conference on the Evaluation of Fuel Cycle for Future Nuclear Systems GLOBAL'95, Versailles, France, 11–14 September 1995 [Google Scholar]
  22. M. Salvatores, I. Slessarev, M. Uematsu, A global physics approach to transmutation of radioactive nuclei, Nucl. Sci. Eng. 116, 1–18 (1994) [CrossRef] [Google Scholar]
  23. G. Palmiotti, G. Aliberti, M. Salvatores, J. Tommasi, Integral experiments analysis for validation and improvement of minor actinide data for transmutation needs, in: Proceedings of the International Conference on Nuclear Data for Science and Technology, pp. 1436– 1441, Santa Fe, 2005 [Google Scholar]
  24. M. Salvatores, M. Martini, I. Slessarev, J.C. Cabrillat, J.P. Chauvin, P. Finck, R. Jacqmin, R. Soule, A. Tchistiakov, MUSE-1: a first experiment at MASURCA to validate the physics of sub-critical multiplying systems relevant to ADS, in: Second International Conference on Accelerator-Driven Transmutation Technologies and Applications, Kalmar, Sweden, 3–7 June, 1996 [Google Scholar]
  25. M. Salvatores, M. Martini, I. Slessarev, J.C. Cabrillat, J.P. Chauvin, P. Finck, R. Jacqmin, R. Soule, A. Tchistiakov, The neutronics of a source-driven multiplying medium and its experimental validation at MASURCA, in: Physor 96 International Conference on the Physics of Reactors, Mito, Japan, 16–20 September 1996 [Google Scholar]
  26. R. Soule, M. Salvatores, R. Jacqmin, M. Martini, J.F. Lebrat, P. Bertrand, U. Broccoli, V. Peluso, Validation of neutronic methods applied to the analysis of fast subcritical systems: The MUSE-2 experiments, Global'97, Yokohama, Japan, 5–10 October 1997 [Google Scholar]
  27. C. Rubbia, S. Monti, M. Salvatores, A. D'Angelo, G. Bignan, N. Burgio, D. Cacuci, J. Cahalan, M. Carta, P. Fougeras, G. Granget, G. Imel, C. Jammes, Y. Kadi, J. Knebel, S. Maloy, D.G. Naberejnev, H. Philibert, P. Ravetto, TRADE: a full experimental validation of the ADS concept in a European perspective, in: Proceedings of the International Meeting on Nuclear Applications of Accelerator Technology: Accelerator Application in a Nuclear Renaissance, pp. 8– 16, San Diego, 2003 [Google Scholar]
  28. P. Agostini, A. Aiello, P. Turroni, F. Pisacane, S. Monti, S. Buono, L. Maciocco, S. Maloy, Y. Lejeail, M. Salvatores, The TRADE target design and development, in: Proceedings of the International Meeting on Nuclear Applications of Accelerator Technology: Accelerator Application in a Nuclear Renaissance, pp. 103– 108, San Diego, 2003 [Google Scholar]
  29. G. Aliberti, G. Imel, G. Palmiotti, M. Salvatores, C. Jammes, G. Perret, Dynamic analysis of source driven fast neutron systems for experimental techniques of subcritical reactivity measurement, Trans. Am. Nucl. Soc. 89, 641 (2003) [Google Scholar]
  30. C. Rubbia, M. Carta, N. Burgio, C. Ciavola, A. D'Angelo, A. Dodaro, A. Festinesi, S. Monti, A. Santagata, F. Troiani, M. Salvatores, M. Delpech, Y. Kadi, S. Buono, A. Ferrari, A.H. Martínez, L. Zanini, G. Imel, Neutronic analyses of the TRADE demonstration facility, Nucl. Sci. Eng. 148, 103–123 (2004) [CrossRef] [Google Scholar]
  31. 2009 GIF Symposium Proceedings, Paris (France) − 9-10 September, 2009, ISBN 978-92-64-99115-6 [Google Scholar]
  32. J. Bouchard, M. Salvatores, Reactor physics development from the early sixties to yesterday: John Rowlands contribution, Trans. Am. Nucl. Soc. 107, 1171–1172 (2012) [Google Scholar]
  33. G. Youinou, G. Palmiotti, C. Mcgrath, G. Imel, M. Pau, R. Pardo, F. Kondev, M. Salvatores, MANTRA: an integral reactor physics experiment to infer actinide capture cross-sections from thorium to californium with accelerator mass spectrometry, J. Korean Phys. Soc. 59, 1940–1944 (2011) [CrossRef] [Google Scholar]
  34. G. Palmiotti, M. Salvatores, The role of experiments and of sensitivity analysis in simulation validation strategies with emphasis on reactor physics, Ann. Nucl. Energy 52, 10–21 (2013) [CrossRef] [Google Scholar]
  35. M. Salvatores, G. Palmiotti, G. Aliberti, P. Archier, C. De Saint Jean, E. Dupont, M. Herman, M. Ishikawa, T. Ivanova, E. Ivanov, S.-J. Kim, I. Kodeli, G. Manturov, R. McKnight, S. Pelloni, C. Perfetti, A.J.M. Plompen, B.T. Rearden, D. Rochman, K. Sugino, A. Trkov, W. Wang, H. Wu, W.-S. Yang, Methods and issues for the combined use of integral experiments and covariance data: results of a NEA international collaborative study, Nucl. Data Sheets 118, 38–71 (2014) [CrossRef] [Google Scholar]
  36. G. Palmiotti, M. Salvatores, G. Aliberti, M. Herman, S.D. Hoblit, R.D. McKnight, P. Obložinský, P. Talou, G.M. Hale, H. Hiruta, T. Kawano, C.M. Mattoon, G.P.A. Nobre, A. Palumbo, M. Pigni, M.E. Rising, W.-S. Yang, A.C. Kahler, Combined use of integral experiments and covariance data, Nucl. Data Sheets 118, 596–636 (2014) [CrossRef] [Google Scholar]
  37. M. Salvatores et al., OECD/NEA WPEC Subgroup 26 Final Report, Uncertainty and Target Accuracy Assessment for Innovative Systems Using Recent Covariance Data Evaluations, Nuclear Science NEA/WPEC-26 (2008) [Google Scholar]
  38. M. Salvatores, G. Palmiotti, Methods and approaches to provide feedback from nuclear and covariance data adjustment for improvement of nuclear data files: major findings of the NEA WPEC Subgroup 39, ND2019, Beijing, China, 2019. (to appear on EPJ Web of Conference) [Google Scholar]
  39. G. Palmiotti, M. Salvatores, Revisiting the bias factor methodologies for the validation of fast test reactors, Ann. Nucl. Energy 145, 107591 (2020) [CrossRef] [Google Scholar]
  40. M. Salvatores, The interplay of theory and experiments in reactor physics, Invited lecture as Eugene P. Wigner Reactor Physicist Award Winner, Trans. Am. Nucl. Soc. 93, 361–362 (2005) [Google Scholar]

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