############ Publications ############ Publications featuring JADE =========================== * D. Laghi, M. Fabbri, L. Isolan, R. Pampin, M. Sumini, A. Portone and A. Trkov, 2020, "JADE, a new software tool for nuclear fusion data libraries verification & validation", *Fusion Engineering and Design*, **161** 112075. doi: https://doi.org/10.1016/j.fusengdes.2020.112075 * D. Laghi, M. Fabbri, L. Isolan, M. Sumini, G. Shnabel and A. Trkov, 2021, "Application Of JADE V&V Capabilities To The New FENDL v3.2 Beta Release", *Nuclear Fusion*, **61** 116073. doi: https://doi.org/10.1088/1741-4326/ac121a * D.Laghi, M. Fabbri, S. La Rovere, L. Isolan, R. Pampin, A. Portone and M. Sumini, 2022, "Status of JADE, an open-source software for nuclear data libraries V&V", *Fusion Engineering and Design*, **187** 113380, doi: https://doi.org/10.1016/j.fusengdes.2022.113380 * G. Schnabel et al., 2024, "FENDL: A library for fusion research and applications", *Nuclear Data Sheets*, **193** 1-78, doi: https://doi.org/10.1016/j.nds.2024.01.001 Benchmarks Related Publications =============================== * A. Milocco, A. Trkov and I. A. Kodeli, 2010, "The OKTAVIAN TOF experiments in SINBAD: Evaluation of the experimental uncertainties", *Annals of Nuclear Energy*, **37** 443-449 * I.Kodeli, E. Sartori and B. Kirk, “SINBAD - Shielding Benchmark Experiments - Status and Planned Activities”, *Proceedings of the ANS 14th Biennial Topical Meeting of Radiation Protection and Shielding Division*, Carlsbad, New Mexico (April 3-6, 2006) * D. Leichtle, B. Colling, M. Fabbri, R. Juarez, M. Loughlin, R. Pampin, E. Polunovskiy, A. Serikov, A. Turner and L. Bertalot, 2018, "The ITER tokamak neutronics reference model C-Model", *Fusion Engineering and Design*, **136** 742-746 * M. Sawan, 1994, "FENDL Neutronics Benchmark: Specifications for the calculational and shielding benchmark", (Vienna: INDC(NDS)-316) * M. Martone, M. Angelone, and M. Pillon. “The 14 MeV Frascati neutrongenerator”. In:Journal of Nuclear Materials 212-215 (1994). Fusion ReactorMaterials, pp. 1661–1664 * P. Batistoni, M. Angelone, L. Petrizzi, and M. Pillon. “Benchmark Experimentfor the Validation of Shut Down Activation and Dose Rate in a Fusion Device”.In: Journal of Nuclear Science and Technology 39.sup2 (2002), pp. 974–977. * K. Seidel, Y. Chen, U. Fischer, H. Freiesleben, D. Richter, and S. Unholzer.“Measurement and analysis of dose rates and gamma-ray fluxes in an ITERshut-down dose rate experiment”. In:Fusion Engineering and Design 63-64 (2002), pp. 211–215. * R. Pampin, A. Davis, R.A. Forrest, D.A. Barnett, I. Davis, and M.Z. Youssef.“Status of novel tools for estimation of activation dose”. In:Fusion Engineeringand Design 85.10 (2010). Proceedings of the Ninth International Symposiumon Fusion Nuclear Technology, pp. 2080–2085. * J. Sanz, O. Cabellos, and N. Garcia-Herranz. Inventory Code for Nuclear Applications: User’s Manual V. 2008. RSICC. 2008. * S. Simakov, B.V. Devkin, M.G. Kobozev, V.A. Talalaev, U. Fischer, U. von Möllendorff, "Validation of evaluated data libraries against an iron shell transmission experiment and against the Fe(n,xn) reaction cross section with 14 MeV neutron source", Report EFF-DOC-747, NEA Data Bank, Dec. 2000, Paris * I. Kodeli, A. Milocco and A. Trkov, "Lessons learned from the TOF-benchmark intercomparison exercise within EU CONRAD project (how not to misinterpret a TOF-benchmark)", Nucl Technol 168 3 (2009) 965-969 * I. Kodeli and E. Sartori, "SINBAD - Radiational shieding benchmark Experiments", Annals of Nuclear Energy, 159 (2021) 108254 * ICBEP, NEA/NSC/DOC/(95)03/VIII, Volume VIII, ALARM-CF-FE-SHIELD-001, neutron and photon leakage spectra from cf-252 source at centers of six iron spheres of different diameters Miscellaneous ============= * **MCNP**, Werner C.J., 2017, "MCNP User’S Manual Code", Los Alamos: LAUR-17-29981 (version 6.2). * **D1S-UNED**, P. Sauvan et al, 2020, "D1SUNED system for the determination of decay photon related quantities", *Fusion Eng. Des.*, **151** 111399. * Loughlin M. and Taylor N., 2009, "Recommendation on Plasma scenarios", [ITER IDM 2V3V8G v1.2]