| References |
Abdu, Y.A., Ericsson, T., Mossbauer spectroscopy, X-ray diffraction, and electron microprobe analysis of the New Halfa meteorite (1997) Meteoritics and Planetary Science, 32 (3), pp. 373-375; Al-Rawas, A.D., Gismelseed, A.M., Yousif, A.A., Elzain, M.E., Worthing, M.A., Al-Kathiri, A., Gnos, E., Steele, D.A., Studies on Uruq al Hadd meteorite (2007) Planet. Space Sci., 55, pp. 859-863; Baldokhin, Y.V., Tcherdyntsev, V.V., Kaloshkin, S.D., Kochetov, G.A., Pustov, Y.A., Transformation and fine magnetic structure of mechanically alloyed Fe-Ni alloys (1999) J. Magn. Magn. Mater., 203, pp. 313-315; Bland, P.A., Berry, F.J., Smith, T.B., Skinner, S.J., Pillinger, C.T., The flux of meteorites to the Earth and weathering in hot desert ordinary chondrite finds (1996) Geochimica et Cosmochimica Acta, 60 (11), pp. 2053-2059; Bland, P.A., Sexton, A.S., Jull, A.J.T., Bevan, A.W.R., Berry, F.J., Thornley, D.M., Astin, T.R., Pillinger, C.T., Climate and rock weathering: A study of terrestrial age dated ordinary chondritic meteorites from hot desert regions (1998) Geochim. Cosmochim. Acta, 62, pp. 3169-3184; De Grave, E., Eeckhout, S.G., Mössbauer studies of some magnetic clinopyroxenes (2003) Hyperfine Interact., 148-149, pp. 263-274; De Grave, E., Eeckhout, S.G., 57Fe Mössbauer-effect studies of Ca-rich, Febearing clinopyroxenes: Part III. Diopside (2003) Am. Mineral, 88, pp. 1145-1152; De Grave, E., Persoons, R.M., Vandenberghe, R.E., De Bakker, P.M.A., Mössbauer study of the high-temperature Co substituted magnetites, COxFe3-xO4. I. x ≤ 0.04 (1993) Phys. Rev. B, 47, pp. 5881-5893; Doenitz, F.-D., Die Kristallstruktur des meteoritischen Rhabdits (Fe,Ni)3P (1970) Z. Kristallogr., 131, pp. 222-236; Dunlap, R.A., A Mössbauer effect investigation of the enstatite chondrite from Abee, Canada (1997) Hyperfine Interact., 110, pp. 209-215; Dyar, M.D., Precision and interlaboratory reproducibility of measurements of the Mössbauer effect in minerals (1984) Am. Mineral, 69, pp. 1127-1144; Dyar, M.D., Agresti, D.G., Schaefer, M.W., Grant, C.A., Sklute, E.C., Mössbauer spectroscopy of Earth and planetary materials (2006) Annual Review of Earth and Planetary Sciences, 34, pp. 83-125. , DOI 10.1146/annurev.earth.34.031405.125049; Eeckhout, S.G., De Grave, E., McCammon, C.A., Vochten, R., Temperature dependence of the hyperfine parameters of synthetic P2 1/c Mg-Fe clinopyroxenes along the MgSiO3FeSiO3 join (2000) Am. Mineral, 85, pp. 943-952; Geist, V., Wagner, G., Nolze, G., Moretzki, O., Investigations of the meteoritic mineral (Fe,Ni)3P (2005) Cryst. Res. Technol., 40, pp. 52-64; Gismelseed, A.M., Worthing, M.A., Yousif, A.A., Elzain, M.E., Al Rawas, A.D., Kamal, H.M., Mineralogical and Mössbauer studies on the paramagnetic separate of AlKidirate meteorite (2004) Phys. Status Solidi (A), 201, pp. 482-485; Gismelseed, A.M., Bashir, S., Worthing, M.A., Yousif, A.A., Elzain, M.E., Al Rawas, A.D., Widatallah, H.M., Studies and characterizations of the Al Zarnkh meteorite (2005) Meteorit. Planet. Sci., 40, pp. 255-259; Grokhovsky, V.I., Zhiganova, E.V., Larionov, M.Y., Uimina, K.A., Oshtrakh, M.I., Mössbauer spectroscopy with high velocity resolution in the meteorites study (2008) Phys. Met. Metall, 105, pp. 177-187; Irkaev, S.M., Kupriyanov, V.V., Semionkin, V.A., Sokolov, M.M., Method of registration of nuclear y-resonance (1987), British Patent No. 10745; Irkaev, S.M., Kupriyanov, V.V., Semionkin, V.A., Sokolov, M.M., Method of gamma-ray resonance spectroscopy (1990), British Patent No. 2204385; Kuzmann, E., Nagy, S., Vertes, A., Critical review of analytical applications of Mössbauer spectroscopy illustrated by mineralogical and geological examples (2003) Pure Appl. Chem., 75, pp. 801-858; Lehlooh, A.-F.D., Mahmood, S.H., Mössbauer spectroscopy study of iron nickel alloys (2002) Hyperfine Interact., 139-140, pp. 387-392; Lisher, E.J., Wilkinson, C., Ericsson, T., Haggstrom, L., Lundgren, L., Wappling, R., Studies of the magnetic structure of Fe3P (1974) J. Phys. C: Solid State Phys., 7, pp. 1344-1352; Malysheva, T.V., (1975) Mössbauer Effect in Geochemistry and Cosmochemistry, p. 166. , Nauka, Moscow; McCammon, C., Mössbauer spectroscopy of minerals (1995) Mineral Physics and Crystallography: A Handbook of Physical Constants, pp. 332-347. , T.J. Ahrens, ed. The American Geophysical Union; Morozov, M., Brinkmann, C., Grodzicki, M., Lottermoser, W., Tippelt, G., Amthauer, G., Kroll, H., Octahedral cation partitioning in Mg,Fe2+-olivine. Mössbauer spectroscopic study of synthetic (Mg0.5Fe 2+ 0.5)2SiO4 (Fa50) (2005) Hyperfine Interact., 166, pp. 573-578; Morozov, M., Brinkmann, C., Lottermoser, W., Tippelt, G., Amthauer, G., Kroll, H., Octahedral cation partitioning in Mg,Fe2+-olivine. Mössbauer spectroscopic study of synthetic (Mg0.5Fe 2+C0.5)2SiO4 (Fa50) (2005) Eur. J. Mineral, 17, pp. 495-500; Oshtrakh, M.I., Milder, O.B., Grokhovsky, V.I., Semionkin, V.A., Hyperfine interactions in iron meteorites: Comparative study by Mössbauer spectroscopy (2004) Hyperfine Interact., 158, pp. 365-370; Oshtrakh, M.I., Petrova, E.V., Grokhovsky, V.I., Semionkin, V.A., A study of ordinary chondrites by Mössbauer spectroscopy with high-velocity resolution (2008) Meteorit. Planet. Sci., 43, pp. 941-958; Ouseph, P.J., Groskreutz, H.E., Johnson, A.A., Mössbauer spectra for iron-bearing phases in the meteorite Toluca (1979) Meteoritics, 14, pp. 97-108; Pasternak, M.P., Taylor, R.D., Jeanloz, R., Bohlen, S.R., Magnetic ordering transition in Mg0.9Fe0.1SiO 3 orthopyroxene (1992) Am. Mineral, 77, pp. 901-903; Petrova, E.V., Oshtrakh, M.I., Grokhovsky, V.I., Hyperfine interactions in metal extracted from ordinary chondrite Tsarev L5: A study using Mössbauer spectroscopy with high-velocity resolution (2008) J. Phys. Chem. Solids, 69, pp. 1790-1795; Scorzelli, R.B., Danon, J., Mössbauer study of Schreibersite from Bocaiuva iron meteorite (1986) Meteoritics, 21, p. 509. , (Abstract); Skala, R., Cisarova, I., Crystal structure of meteoritic schreibersites: Determination of absolute structure (2005) Physics and Chemistry of Minerals, 31 (10), pp. 721-732. , DOI 10.1007/s00269-004-0435-6; Sprenkel-Segel, E.L., Hanna, S.S., Mössbauer analysis of iron in stone meteorites (1964) Geochim. Cosmochim. Acta, 28, pp. 1913-1931; Vahonin, M.E., Irkaev, S.M., Kupriyanov, V.V., Semionkin, V.A., Spectromètre de Mössbauer (1988), French Patent Fr 2616539-B 1,8708228; Vahonin, M.E., Irkaev, S.M., Kupriyanov, V.V., Semionkin, V.A., Mössbauer spectrometer (1988), British Patent No. 871294; Van Alboom, A., De Grave, E., Vandenberghe, R.E., Study of the temperature dependence of the hyperfine parameters in two orthopyroxenes by57Fe Mössbauer spectroscopy (1993) Phys. Chem. Minerals, 20, pp. 263-275; Verma, H.C., Tripathi, R.P., Anomalous Mössbauer parameters in the second generation regolith Ghubara meteorite (2004) Meteorit. Planet. Sci., 39, pp. 1755-1759; Verma, H.C., Rawat, A., Paliwal, B.S., Tripathi, R.P., Mössbauer spectroscopic studies of an oxidized ordinary chondrite fallen at Itawa-Bhopji, India (2002) Hyperfine Interact., 142, pp. 643-652; Verma, H.C., Jee, K., Tripathi, R.P., Systematics of Mössbauer absorption areas in ordinary chondrites and applications to a newly fallen meteorite in Jodhpur, India (2003) Meteoritics and Planetary Science, 38 (6), pp. 963-967; Vincze, I., Campbell, I.A., Meyer, A.J., Hyperfine field and magnetic moments in b.c.c. Fe-Co and Fe-Ni (1974) Solid State Commun., 15, pp. 1495-1499; Wang, L., Moon, N., Zhang, Y., Dunham, W.R., Essene, E.J., Fe-Mg order-disorder in orthopyroxenes (2005) Geochim. Cosmochim. Acta, 69, pp. 5777-5788; Zhiganova, E.V., Grokhovsky, V.I., Oshtrakh, M.I., Study of ordinary chondrites by Mössbauer spectroscopy with high velocity resolution: Identification of Ml and M2 sites in silicate phases (2007) Phys. Status Solidi (A), 204, pp. 1185-1191; Zhiganova, E.V., Oshtrakh, M.I., Milder, O.B., Grokhovsky, V.I., Semionkin, V.A., Mezentsev, A.V., Mössbauer spectroscopy of ordinary chondrites: An analysis of the metal phases (2005) Hyperfine Interact., 166, pp. 665-670 |