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Physico chemical properties of irradiated i-SANEX diluents

, S., Hill, C., Caravaca, C., Rhodes, C., Ekberg, C., Taylor, R., Geist, A., Modolo, G., Cassayre, L., Malmbeck, R., Harrison, M., de Angelis, G., Espartero, A., Bouvet, S., & Ouvrier, N. (2009). ACSEPT-Partitioning technologies and actinide science: towards pilot facilities in Europe. Nucl. Eng. Des., 241, 3425-3427. DOI: 10.1016/j.nucengdes. 2011.03.011.1. 6. Mincher, B. J., Modolo, G., & Mezyk, S. P. (2010). The effects of radiation chemistry on solvent extraction 4: separation of the trivalent actinides and considerations for radiation

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Enhanced resonant second harmonic generation in plasma based on density transition

.06.062. 9. Tatarakis, M., Watts, I., Beg, F. N., Clark, E. L., Dangor, A. E., Gopal, A., Haines, M. G., Norreys, P. A., Wagner, U., Wei, M. S., Zepf, M., & Krushelnick, K. (2002). Laser technology-measuring huge magnetic fields. Nature , 415 , 280–280. DOI: 10.1038/415280a. 10. Kant, N., & Sharma, A. K. (2004). Resonant second-harmonic generation of a short pulse laser in a plasma channel. J. Phys. D-Appl. Phys ., 37 , 2395. DOI: 10.1088/0022-3727/37/17/009. 11. Petrov, E. Y., & Kudrin, A. V. (2010). Exact axisymmetric solutions of the Maxwell equations in

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Clinical advantages of using unflattened 6-MV and 10-MV photon beams generated by the medical accelerator Elekta Versa HD based on their dosimetric parameters in comparison to conventional beams

., Xia, P., Huq, S., Bayouth, J., Galvin, J., & Yin, F. -F. (2015). Flattening filter-free accelerators: a report from the AAPM Therapy Emerging Technology Assessment Work Group. J. Appl. Clin. Med. Phys. , 16 (3), 12–29. 14. Budgell, G., Brown, K., Cashmore, J., Duane, S., Frame, J., Hardy, M., Paynter, D., & Thomas, R. (2016). IPEM Topical Report 1: Guidance on implementing flattening filter free (FFF) radiotherapy. Phys. Med. Biol. , 61 , 8360–8394. 15. Garcia, R. (2011). Recommendations on QA of FFF beams. Berlin: Varian Oncology Summit. 16

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Nuclear fusion and its large potential for the future world energy supply

wirtschaftliche und ökologische Probleme bei der Nutzung regenerativer Energiequellen. Elektrowärme Int., 49(A2), A62-A70. 5. UK Parliamentary Offi ce of Science and Technology. (October 1, 2006). Carbon footprint of electricity generation. (POSTnote 06/268). Retrieved from 6. China: Villagers protest at Zhejiang solar panel plant. (September 16, 2011). BBC News. Retrieved from 7. Miller, L. M., Gans

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Studies on hydrometallurgical processes using nuclear techniques to be applied in copper industry. II. Application of radiotracers in copper leaching from flotation tailings

radiotracer for investigation of copper ore leaching. Nukleonika, 63(4), 123-129. DOI: 10.2478/nuka-2018-0015. 24. Bujdoso, E., Feher, I., & Kardos, G. (1973). Activation and decay tables of radioisotopes. Amsterdam, New York: Elsevier. 25. Jaroszewicz, J., Marcinkowska, Z., & Pytel, K. (2014). Production of fi ssion product 99Mo using high-enriched uranium plates in Polish nuclear research reactor MARIA: Technology and neutronic analysis. Nukleonika, 59(2), 43-52. DOI: 10.2478/nuka-2014-0009. 26. Chmielewski, T. (2016

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Influence of alpha and gamma radiolysis on Pu retention in the solvent TBP/kerosene

technology of tributyl phosphate. Boca Raton, FL, USA: CRC Press, Inc. 4. Burr, J. G. (1958). The radiolysis of tributyl phosphate. Radiat. Res., 8(3), 214-221. DOI: 10.2307/3570477. 5. Burger, L. L., & McClanahan, E. D. (1958). Gamma radiolysis. Tributyl phosphate and its diluent systems. Ind. Eng. Chem., 50(2), 153-156. DOI: 10.1021/ ie50578a025. 6. Wagner, R. M., Kinderman, E. M., & Towle, L. H. (1959). Radiation stability of organophosphorus compounds. Ind. Eng. Chem., 51(1), 45-46. DOI: 10.1021/ie50589a033

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Rapid estimation of environmental radioactivity surrounding Xiangshan uranium deposits, Jiangxi province, Eastern China

direction in Jiangxi Province. East China Institute of Technology, 2006(Suppl.), 12-18. (in Chinese with English abstract). 17. Liu, Y., Gu, L., & Hou, Z. (2002). Airborne radiometric survey. Geophys. Geochem. Explor., 26(4), 250-252. (in Chinese with English abstract). 18. Zhang, W., Liu, D., & Li, Z. (2007). Comparative analysis of the erosion degree of deposits in the northwest and southeast parts of Xiangshan uranium ore field in Jiangxi. Geotectonica et Metallogenia, 31(3), 348-352. DOI: 10.3969/j.issn.1001-1552.2007.03.012. (in

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Application of the micronucleus assay performed by different scorers in case of large-scale radiation accidents

(2), 169-175. 8. Franco, M., Bolognesi, C., De Amicis, A., Amati, A., Di Cristofaro, S., Regalbuto, E., Ropolo, M., Lista, F., & De Sanctis, S. (2012). Interlaboratory comparison on cytokinesis-block micronucleus assay for X-ray calibration curve and dose prediction in Italy. Effects of Ionizing Radiation Exposure and Countermeasures: Current Status and Future Perspectives S&T. In T. C. Pellmar (Ed.), Biological effects of ionizing radiation exposure and countermeasures: Current status and future perspectives (paper no. 22). NATO Science and Technology

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Ambient dose equivalent measurements in secondary radiation fields at proton therapy facility CCB IFJ PAN in Krakow using recombination chambers

-Accel. Spectrom. Dect. Assoc. Equip. , 476 (1), 429–434. DOI: 10.1016/S0168-9002(01)01483-8. 18. International Commission on Radiation Units and Measurements. (1993). Quantities and units in radiation protection dosimetry . Bethesda, MD: ICRU. (ICRU Report 51). 19. International Commission on Radiation Units and Measurements. (2001). Determination of operational dose equivalent quantities for neutrons . ICRU Report 66, Journal of the ICRU, 1 (2). Ashford, UK: Nuclear Technology Publishing. 20. Golnik, N. (1996). Recombination methods in the dosimetry of

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The dose of gamma radiation from building materials and soil

, N. (2000). Estimation of the indoor exposure to external radiation from natural radionuclides in building materials in Vojvodina. In Proceedings of the Fifth International Symposium and Exhibition on Environmental Contamination in Central and Eastern Europe. Prague. 7. Popović, D., & Todorović, D. (2006). Radon indoor concentrations and activity of radionuclides in building materials in Serbia. Facta Universitatis, Series: Physics, Chemistry and Technology, 4, 11-20. 8. Krstić, D., Nikezić, D., Stevanović, N., & Vučić, D. (2007

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