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The influence of ionizing radiation on the properties of starch-PVA films

-204. 32. Haji-Saeid, M., Sampa, M. H. O., & Chmielewski, A. G. (2007). Radiation treatment for sterilization of packaging materials. Radiat. Phys. Chem., 76, 1535-1541. 33. Chmielewski, A. G. (2006). Packaging for food irradiation. Warsaw: Institute of Nuclear Chemistry and Technology. (Raporty IChTJ. Seria B nr 1/2006). 34. Cieśla, K., & Eliasson, A. -C. (2007). DSC studies of gamma irradiation effect on the amylose-lipid complex formed in wheat and potato starches. Acta Aliment. Hung., 36(1), 111-126. 35. Cieśla, K

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Selected methods of electron-and ion-diagnostics in tokamak scrape-off-layer

-state nuclear track detectors of the CR-39/PM-355 type. Radiat. Meas. , 43 , S290–S294. DOI: 10.1016/j.radmeas.2008.03.061. 21. Sadowski, M. J. (2012). Progress in high-temperature plasma research at NCBJ (former IPJ) in Poland. Problems of Atomic Science and Technology, Seria: Plasma Phys. , 82 (6), 238–242. 22. Sadowski, M. J., Czaus, K., Kwiatkowski, R., Malinowski, K., Składnik-Sadowska, E., Żebrowski, J., Paduch, M., Scholz, M., Garkusha, I. E., & Makhlay, V. A. (2013). Passive corpuscular diagnostics of charged particles emission from high

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Study on the effect of atmospheric gases adsorbed in MnFe2O4/MCM-41 nanocomposite on ortho-positronium annihilation

References 1. Ajayan, P. M. (2003). Bulk metal and ceramics nanocomposites. In P. M. Ajayan, L. S. Schadler, & P. V. Braun (Eds.), Nanocomposite science and technology (pp. 1–76). Weinheim: Wiley-VCH Verlag GmbH & Co. KgaA. 2. Goworek, T. (2014). Positronium as a probe of small free volumes in crystals, polymers and porous media. Ann. UMCS Chemia , 69 (1/2), 1–110. DOI: 10.2478/umcschem-2013-0012. 3. Tao, S. J. (1972). Positronium annihilation in molecular substances. J. Chem. Phys ., 56 , 5499–5510. DOI: 10.1063/1.1677067. 4. Eldrup

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Characterization of solvents containing CyMe4-BTPhen in selected cyclohexanone-based diluents after irradiation by accelerated electrons

. 4. Greneche, D., Quiniou, B., Boucher, L., Delpech, M., Gonzalez, E., Alvarez, F., Cunado, M. A., Serrano, G., Cormenzana, J. L., Kuckshinrichs, W., Odoj, R., Lensa, W., Wallenius, J., Westlén, D., Zimmerman, C., & Marivoet, J. (2007). Red impact - impact of partitioning, transmutation and waste reduction, synthesis report, technologies on the final nuclear waste disposal. Jülich: Forschungszentrum Jülich GmbH. 5. Salvatores, M., & Palmiotti, G. (2011). Radioactive waste partitioning and transmutation within advanced fuel cycles: Achievements and

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Ion exchange investigation for recovery of uranium from acidic pregnant leach solutions

, 1620-1623. 32. Kiegiel, K., Abramowska, A., Gajda, D., & Zakrzewska, G. (2015). A study of precipitation of yellow cake for production of nuclear fuel. In INCT Annual Report 2014 (pp. 36-37). Warszawa: Institute of Nuclear Chemistry and Technology. 33. Danko, B., Samczyński, Z., & Dybczyński, R. (2006). Analytical scheme for group separation of the lanthanides from biological materials before their determination by Neutron Activation Analysis. Chem. Anal., 51, 527-539.

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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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Pyrochemical reprocessing of molten salt fast reactor fuel: focus on the reductive extraction step

References 1. OECD. (2004). Pyrochemical separations in nuclear applications. Status report of OECD. 2. Long, J. T. (1978). Engineering for nuclear fuel reprocessing. 2nd ed. (pp. 242-272). American Nuclear Society. 3. Laidler, J. J., Battles, J. E., Miller, W. E., Ackerman, J. P., & Carls, E. L. (1997). Development of pyroprocessing technology. Prog. Nucl. Energy, 31(1/2), 131. 4. Bettis, E. S., & Robertson, R. C. (1970). The design and performance features of a single-fl uid molten salt breeder

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Precise determination of HPGe detector efficiency for gamma spectrometry measurements of environmental samples with variable geometry and density

. Chem ., 224 , 171–172. 10. Hubbell, J. H., & Seltzer, S. M. (1995). Tables of x-ray mass attenuation coefficients and mass energy-absorption coefficients 1 keV to 20 MeV for elements Z = 1 to 92 and 48 additional substances of dosimetric interest. Gaithersburg, MD: National Institute of Standards and Technology (NISTIR 5632). Available from . 11. Kitto, M. E. (1990). Mass attenuation coefficients of size-fractioned soil. J. Radioanal. Nucl. Chem.-Lett. , 145 (3), 175–182. 12. Cutshall, N. H., Larsen, I. L., & Olsen

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Monte Carlo calculated CT numbers for improved heavy ion treatment planning

. (2013). Ion range estimation by using dual energy computed tomography. Z. Med. Phys., 23(4), 300-313. 30. Wysocka-Rabin, A. (2013) Advances in conformal radiotherapy using Monte Carlo Code to design new IMRT and IORT Accelerators and interpret CT numbers. (CERN- -WUT Editorial series on “Accelerator Science”. Vol. 17). Warsaw: Institute of Electronic Systems, Warsaw University of Technology.

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