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Analysis of Košice Meteorite by Mössbauer Spectroscopy

R eferences [1] VIERA, V. W.—KNUDSEN, J. M.—ROY-POULSEN, N. O. CAMPSIE, J. : Mössbauer spectroscopy of Pyroxenes from Two Meteorites, Physica Scripta 27 (1983), 437–444. VIERA V. W. KNUDSEN J. M. ROY-POULSEN N. O. CAMPSIE J. Mössbauer spectroscopy of Pyroxenes from Two Meteorites Physica Scripta 27 1983 437 444 [2] VERMA, H. C.—JEE, KAAVI—TRIPATHI, R. P. : Systematics of Mössbauer absorption areas in ordinary chondrites and applications to a newly fallen meteorite in Jodhpur, India Meteoritics and Planetary Science 38

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Mean hyperfine fields at 57Fe in dilute iron-based alloys studied by Mössbauer spectroscopy

, 114 , 1563–1571. 4. Chojcan, J. (2004). A dilute-limit heat of solution of 3d transition metals in iron studied with 57 Fe Mössbauer spectroscopy. Hyperfine Interact. , 156/157 , 523–529. DOI: 10.1007/978-1-4020-2852-6_76. 5. Błachowski, A., Ruebenbauer, K., & Żukrowski, J. (2004). Charge and spin density perturbation on iron atom due to osmium impurity in metallic iron. Nukleonika , 49 (Suppl. 3), S67–S70. 6. Błachowski, A., Ruebenbauer, K., & Żukrowski, J. (2006). Spin- and charge-density waves around Ru impurities in α-Fe alloys studied by 57 Fe

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Identification of iron-bearing minerals in basalts and pillow lavas of the Kaczawa Mountains using 57Fe Mössbauer spectroscopy

, University of North Carolina. Available from https://www.mtholyoke.edu/courses/mdyar/data/Mineral-Handbook.pdf. 4. Bolewski, A. (1982). Mineralogia szczegółowa. Warszawa: Wydawnictwo Geologiczne. 5. Komraus, J. L., Adamczyk, Z., Popiel, E. S., & Malczewski, D. (1996). Identifi cation of ferruginous minerals in basalt from Kaczawa Mountains Region by Mössbauer spectroscopy. In: All-Polish Seminar on Mössbauer Spectroscopy, 27-29 May 1996, Lublin, Poland (pp. 51-56). 6. Hawthorne, F. C. (1988). Spectroscopic methods in

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Preliminary results of 57Fe Mössbauer spectroscopy of metamict samarskite after one-hour high temperature annealing in argon

.S. Geological Survey Miscellaneous Investigations Map I-1163, scale 1: 250,000. 4. Malczewski, D., & Grabias, A. (2010). 57Fe Mössbauer spectroscopy of radiation damaged samarskites and gadolinites. Hyperfi ne Interact., 195, 85-91. DOI: 10.1007/s10751-009-0105-7. 5. Hawthorne, F. C. (1988). Spectroscopic methods in mineralogy and geology. Rev. Mineral., 18, 255-340. DOI: 10.1017/S0016756800022962. 6. Stevens, J. G., Khasanov, A. M., Miller, J. W., Pollak, H., & Li, Z. (2005). Mössbauer mineral handbook. Asheville, NC, USA

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57Fe Mössbauer spectroscopy investigations of iron phase composition in fluidized beds from the ELCHO power plant in Chorzów, Poland

., Smith, K. R., Hu, A. A., Lighty, J. S., & Aust, A. E. (2000). Mobilization of iron from coal fl y ash was dependent upon the particle size and source of coal: Analysis of rates and mechanisms. Chem. Res. Toxicol., 13, 382-389. 12. Veranth, J. M., Smith, K. R., Huggins, F., Hu, A. A., Lighty, J. S., & Aust, A. E. (2000). Mössbauer spectroscopy indicates that iron in an aluminosilicate glass phase is the source of the bioavailable iron from coal fl y ash. Chem. Res. Toxicol., 13, 161-164. 13. Szumiata, T., Brzózka, K., Górka, B

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Characterization of granites by 57Fe Mössbauer spectroscopy

G. (1997). Magnetic properties of the clinopyroxenes aegirine and hedenbergite: a magnetic susceptibility study on single crystals. Physics and Chemistry of Minerals , 24, 294-300. Coey J. M. D. (1975). The clay minerals: use of Mössbauer spectroscopy to characterize them and study their transformations. Proceedings - International Conference on Mössbauer Spectroscopy, August 25-30 (pp. 333-353). Cracow, Poland. De Grave E., Van Alboom A., & Eeckhout S. G. (1998). Electronic and magnetic properties of a natural

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Mössbauer spectroscopy study of 60P2O5-40Fe2O3 glass crystallization

hyperfine parameter distributions in Mössbauer spectra. J. Phys. E-Sci. Instrum ., 14 (5), 605–610. DOI: 10.1088/0022-3735/14/5/018. 7. Alberto, H. V., Pinto da Cunha, J. L., Mysen, B. O., Gil, J. M., & Ayres de Campos, N. (1996). Analysis of Mössbauer spectra of silicate glass using a two-dimensional Gaussian distribution of hyperfine parameters. J. Non-Cryst. Solids , 194 (1), 48–57. DOI: 10.1016/0022-3093(95)00463-7. 8. Stoch, P., Ciecinska, M., Zachariasz, P., Suwalski, J., Górski, L., & Wójcik, T. (2013). Mössbauer spectroscopy study of 60P 2 O 5 -40Fe 2 O 3

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Mössbauer spectroscopy of reduced forms of a Fe-tetraphenylporphyrine complex

(II) tetraphenylporphyrin bis(tetrahydrofuran). J. Am. Chem. Soc ., 108 , 6942–6950. DOI: 10.1021/ja00282a019. 16. Kaczmarzyk, T., Jackowski, T., & Dziliński, K. (2007). Spectroscopic characteristics of FeI-phthalocyanine. Nukleonika , 52 , 99–103. 17. Debrunner, P. G. (1989). Mössbauer spectroscopy of iron porphyrins. In A. B. P. Lever & H. B. Gray (Eds.), Iron porphyrins (Part III, pp. 140–234). New York: VCH Publishers. 18. Sams, J. R., & Tsin, T. B. (1979). Mössbauer spectroscopy of iron porphyrins. In D. Dolphin (Ed.), The porphyrins (Vol. 4, pp. 425–447). New York

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An example of the application of Mössbauer spectroscopy for determination of concentration of iron in lyophilized brain tissue

References 1. Herr, W., & Skerra, B. (1969). Mössbauer spectroscopy applied to the classifi cation of stone meteorites. In: P. M. Millman (Ed.), Meteorite research (Vol. 12, pp. 106-122). Astrophysics and Space Series. Science Library. Dordrecht: D. Reidel Pub. Co. 2. Morris, R. V., Klingelhöfer, G., Korotev, L. R., & Shelfer, T. D. (1998). Mössbauer mineralogy on the Moon: The lunar regolith. Hyperfi ne Interact., 117, 405-432. 3. Bauminger, E. R., Barcikowska, M., Friedman, A., Hechel, D., & Nowik, I. (1994

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Structure and Mössbauer spectroscopy studies of mechanically activated (BiFeO3)1−x-(BaTiO3)x solid solutions

coupling in single-phase BaTiO 3 -BiFeO 3 system. J. Appl. Phys ., 113 , 144101-1-5. DOI: 10.1063/1.4799591. 7. Jartych, E., Malesa, B., Antolak-Dudka, A., & Oleszak, D. (2014). Mössbauer spectroscopy studies of multiferroic (BiFeO 3 ) 1-x -(BaTiO 3 ) x solid solutions prepared by mechanical activation. Acta Phys. Pol. A , 125 (3), 837–839. DOI: 10.12693/APhysPolA.125.837. 8. Malesa, B., & Mazurek, M. (2014). Hyperfine interactions in (BiFeO 3 ) 0.9 -(BaTiO 3 ) 0.1 ceramics prepared by mechanical activation. Informatyka, Automatyka, Pomiary w Gospodarce i

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