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Radon-based technique for the analysis of atmospheric stability – a case study from Central Poland

inventory for applied atmospheric studies. Atmos. Environ., 43 (8), 1536–1539. 12. Griffiths, A. D., Zahorowski, W., Element, A., & Werczynski, S. (2010). A map of radon flux at the Australian land surface. Atmos. Chem. Phys ., 10 , 8969–8982. 13. Karstens, U., Schwingshackl, C., Schmithusen, D., & Levin, I. (2015). A process-based 222 radon flux map for Europe and its comparison to long-term observations. Atmos. Chem. Phys ., 15 , 12845–12865. DOI: 10.5194/acp-15-12845-2015. 14. Chambers, S. D., Williams, A. G., Zahorowski, W., Griffiths, A

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Magnetic and structural properties of Sc(Fe1−xSix)2 Laves phases studied by Mössbauer spectroscopy and neutron diffraction

References 1. Hilscher, G. (1982). Onset of magnetism in concentrated ternary alloys I. J. Magn. Magn. Mater ., 25 (3), 229–250. DOI: 10.1016/0304-8853(82)90071-3. 2. Hilscher, G. (1982). Onset of magnetism in concentrated ternary alloys I. Laves phase compounds A(Fe 1− x B x ) 2 (A=Y, Zr, U; B=Mn, Co and Al). J. Magn. Magn. Mater ., 27 (1), 1–31. DOI: 10.1016/0304-8853(82)90279-7. 3. Al Alam, A. F., Matar, S. F., Ouaini, N., & Nakhl, M. (April 2008). Hydrogen insertion effects on the magnetic properties and chemical bonding within C14 Laves phases

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Crystal structure and Mössbauer effect in multiferroic 0.5BiFeO3-0.5Pb(Fe0.5Ta0.5)O3 solid solution

References 1. Scott, J. F. (2007). Data storage: Multiferroic memories. Nat. Mater., 6, 256-257. DOI: 10.1038/nmat1868. 2. Paik, H., Hwang, H., No, K., Kwon, S., & Cann, D. P. (2007). Room temperature multiferroic properties of single-phase (Bi0.9La0.1)FeO3-Ba(Fe0.5Nb0.5)O3 solid solution ceramics. Appl. Phys. Lett., 90, 042908. DOI: 10.1063/1.2434182. 3. Yuan, G. L., Or, S. W., Liu, J. M., & Liu, Z. G. (2006). Structural transformation and ferroelectromagnetic behavior in single-phase Bi1-xNdxFeO3 multiferroic

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Temperature dependence of the short-range order parameter for Fe0.90Cr0.10 and Fe0.88Cr0.12 alloys

References 1. Erhart, P., Caro, A., Serrano de Caro, M., & Sadigh, B. (2008). Short-range order and precipitation in Fe-rich Fe-Cr alloys: Atomistic off-lattice Monte Carlo simulations. Phys. Rev. B , 77 , 134206. DOI: 10.1103/PhysRevB.77.134206. 2. Bonny, G., Erhart, P., Caro, A., Pasianot, R. C., Malerba, L., & Caro, M. (2009). The influence of short range order on the thermodynamics of Fe-Cr alloy. Model. Simul. Mater. Sci. Eng. , 17 , 025006. DOI: 10.1088/0965-0393/17/2/025006. 3. Bonny, G., Pasianot, R. C., Malerba, L., Caro, A., Olsson, P

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The study of crystal and magnetic properties of MnNi0.85Fe0.15Ge

transitions and magnetocaloric effect in the Fe-doped MnNiGe alloys. Chin. Phys. B , 20 , 097501-1–097501-4. DOI: 10.1088/1674-1056/20/9/097501. 6. Zhang, C. L., Wang, D. H., Cao, Q. Q, Ma, S. C., Xuan, H. C., & Du, Y. W. (2010). Magnetic phase transitions and magnetocaloric effect in the Co-doped MnNiGe 1.05 alloys. J. Phys. D: Appl. Phys ., 43 , 205003. DOI: 10.1088/0022-3727/43/20/205003. 7. Grandjean, F., & Gerard, A. (1979). Mössbauer spectra of several ternary silicides, germanides and antimonides of transition metals. J. Solid State Chem ., 2 , 285

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Radiocatalytic degradation of dissolved organic compounds in wastewater

). Treatment of wastewater having estrogen activity by ionizing radiation. Radiat. Phys. Chem., 76, 699-706. DOI: 10.1016/j.radphyschem.2006.04.005. 6. Chmielewski, A. G., & Haji-Saeid, M. (2004). Radiation technologies: past, present and future. Radiat. Phys. Chem., 71, 17-21. DOI: 10.1016/j.radphyschem. 2004.05.040. 7. González-Juárez, J. C., Jiménez-Becerril, J., & CejudoÁlvarez, J. (2010). Degradation of 4-chlorophenol by gamma radiation of 137Cs and X-rays. J. Mex. Chem. Soc., 54, 157-159. Available from http

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Radiation methods in decision support system for food safety

terrorism and other food safety concerns. Washington. Federal Register (Vol. 68, Issue 197). 8. Torok, T. J., Tauxe, R. V., & Wise, R. P. (1987). A large community outbreak of Salmonella caused by intentional contamination of restaurant salad bars. J. Am. Med. Inf. Assoc., 278, 389-395. 9. Chmielewski, A. G., & Haji-Saeid, M. (2004) Radiation technologies: past, present and future. Radiat. Phys. Chem., 71, 17-21. DOI: 10.1016/j.radphyschem. 2004.05.040. 10. Henry, T. G. (2005). Inactivation of bio-terrorism agents in

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Physico chemical properties of irradiated i-SANEX diluents

References 1. Mincher, B. J., Modolo, G., & Mezyk, S. P. (2009). The effects of radiation chemistry on solvent extraction: 1. Conditions in acidic solution and a review of TBP radiolysis. Solvent Extr. Ion Exch., 27, 1-25. DOI: 10.1080/07366290802544767. 2. Tripathi, S. C., & Ramanujam, A. (2003). Effect of radiation-induced physicochemical transformations on density and viscosity of 30% TBP-n-dodecane- -HNO3 system. Separ. Sci. Technol., 38, 2307-2326. DOI: 10.1081/SS-120021626. 3. Bourg, S., Poinssot, C

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The microstructure and magnetic properties of Nd8.5Tb1.5Fe83Zr1B6 ribbons obtained at various cooling rates

. C., García, J. A., & Rivas, M. (2008). Asymmetric magnetization reversal of partially devitrified Co 66 Si 15 B 14 Fe 4 Ni 1 . J. Non-Cryst. Solids , 354 , 5123–5125. DOI:10.1016/j.jnoncrysol.2008.05.059.

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Spin reorientation process in Tm2–xHoxFe14B – analysis of conical arrangement based on Mössbauer spectra

). Conical spin arrangement and spin reorientation process in Er2-xHoxFe14B observed with Mössbauer spectroscopy. J. Alloy. Compd., 684, 587-593. DOI: 10.1016/j.jalcom.2016.05.140. 11. Yamada, M., Kato, H., Yamamoto, H., & Nakagawa, Y. (1988). Crystal-fi eld analysis of the magnetization process in a series of Nd2Fe14B-type compounds. Phys. Rev. B, 38, 620-633. DOI: 10.1103/PhysRevB.38.620. 12. Burzo, E. (1998). Permanent magnets based on R-Fe-B and R-Fe-C alloys. Rep. Prog. Phys., 60, 1099-1266. DOI: 10

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