диссертация (1097652), страница 63
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Kerrigde J.E., Mathews M.S.), Arizona: University of Arizona Press,595-615.Swanson-Hysell N.L., Vaughan A.A., Mustain M.R., and Asp K.E. (2014) Confirmation ofprogressive plate motion during the Midcontinent Rift’s early magmatic stage from theOsler Volcanic Group, Ontario, Canada, Geochemistry Geophysics Geosystems 15, 20392047, doi:10.1002/ 2013GC005180.Taylor L.A., Patchen A., Mayne R.G., Taylor D.H., (2004) Themost reduced rock fromthemoon, Apollo 14 basalt 14053: its unique features and their origin, AmericanMineralogist 89, 1617–1624.Tikoo S.M., Weiss B.P., Buz J., Garrick-Bethell I., Grove L., Gattacceca J. (2010) Ancient lunardynamo: absence of evidence is not the evidence of absence, 41st Lunar Planetary ScienceConference, abstract #2705.Tucker P., O'Reilly W. (1980)Reversed thermoremanent magnetisation in synthetictitanomagnetites as a consequence of high temperature oxidation,Journal ofGeomagnetism and Geoelectricity 32, 341 -355.Uwatoko Y., Todo S., Ueda K.
et al., (2002)J. Phys.: Condens. Matter, 14, 11291-11296Uyeda S. (1957) Thermo-remanent magnetism and coercive force of the ilmenite-hematiteseries, Journal of Geomagnetism and Geoelectricity 9, 61-78.Uyeda S. (1958) Thermo-remanent magnetism as a medium of palaeomagnetism, with specialreference to reverse thermoremanent magnetism, Japan Geophysical Journal 2, 1-9.Van de Moortèle B., Reynard B., Rochette P., Jackson M., Beck P., Gillet P., McMillan P.
F.(2007) Shock-induced metallic iron nanoparticles in olivine-rich Martian meteorites, Earthand Planetary Science Letters 262, 37–49.Verhoogen J. (1956) Ionic ordering and self-reversal of magnetization in impure magnetites,Journal of Geophysical Research 61(2), 201-209.Verhoogen J. (1962) Oxidation in iron titanium oxides in igneous rocks, Geological Journal 70,168 -173.Vernazza P., Brunetto R., Strazzulla G., Fulchignoni M., Rochette P., Meyer-Vernet N.,Zouganelis I. (2006) Asteroid colors: a novel tool for magnetic field detection? The case ofVesta, Astronomy & Astrophysics 451, L43-L46, doi: 10.1051/0004-6361:20065176.
298 Vernazza P., Binzel R.P., Thomas C.A., DeMeo F.E. Bus S.J., Rivkin A.S., Tokunaga A.T.(2008) Compositionaldifferencesbetweenmeteoritesandnear-Earth asteroids,Nature 454, 858-860, doi: 10.1038/nature07154.Vernazza P., Binzel R.P., Rossi A., Fulchignoni M., Birlan M. (2009) Solar wind as the origin ofrapid reddening of asteroid surfaces, Nature 458, 993-995, doi: 10.1038/nature07956.Vlag P., Vandamme D., Rochette P.
and Spinelli K. (1997) Paleomagnetism in the Esterelrocks: A revisit 22 years after the thesis of H. Zijderveld, Geoogical Mijnbouw, 76, 21 –33.Walton D., Shaw J., Hakes J., (1991) Microwave demagnetization, Journal of Applied Physics71, 1549–1551.Wasilewski P. (1976) Shock loading meteorite bcc metal above the pressure transition: remanentmagnetization stability andmicrostructure. Physics of the Earth Planetary Interiors 11, 5–11.Wegener A. (1915) Die Entstehung der Kontinente und Ozeane, Braunschweig: Viewig), 12p.Weiss B.P., Gattacceca J., Stanley S., Rochette P., Christensen U.R.
(2010) PaleomagneticRecords of Meteorites and Early Planetesimal Differentiation, Space Science Reviews152, 341-390, doi:10.1007/s11214-‐009-‐9580-‐z.Weiss B.P., Tikoo S.M. (2014) The lunar dinamo, Science 346, 1246753-1÷1246753-10.Weiss P. (1907) L’hypothèse du champ moleculaire et la propriété ferromag-nétique, Journal ofPhysique, 6, 661-690.Westcott-Lewis F. (1971) Grain size dependence of thermoremanence in ilmenite − haematites,Earth and Planetary Science Letters, 12(1), 124-128.Wieczorek, M.A. (2006) The constitution and structure of the lunar interior, Reviews inMineralogy & Geochemistry 60, 221–364.Wieczorek M.A., Weiss B.P.
(2010) Testing the lunar dynamo hypothesis using global magneticfield data, 41st Lunar and Planetary Science Conference, abstract #1625.Wittmann A., Korotev R.L., Jolliff B.L., Irving A.J., Moser D.E., Barker I., Rumble D. (2015)Petrogrophy and composition of Martian regolith breccia meteorite Northwest Africa 7475,Meteoritics & Planetary Science 50(40), 326-352, doi: 10.1111/maps.12425.Wolk S.J., Harnden F.R.Jr., Flaccomio E., Micela G., Favata F., Shang H., Feigelson E.D.(2005) Stellar Activity on the Young Suns of Orion: COUP Observations of K5-7 PreMain-Sequence Stars, Astrophysical Journal Supplement Series 160(2), 423-449,doi:10.1086/432099. 299 Yakovlev O.I., Fainberg V.S., Kaznacheev E.A.
(1988) Vapor composition at impactvaporization: Experimental data, Lunar and Planetary Science Conference XIX, abs.,1304-1305.Yu Y. (2000) Rock magnetic and paleomagnetic experiments on some Self-reversing Pumicesfrom Japan, Journal IRM Quarterly 10(2), 6.Yu Y., Dunlop D.J., Ozdemir O. and Ueno, H. (2001) Magnetic properties of Kurokami pumicesfrom Mt. Sakurajimi, Japan, Earth and Planetary Science Letters, 192, 439-446.Zanda B., Rotaru M.
(2001) Meteorites. Their impact on science and history, Cambridge:University press, 128pp.Zapletal K. (1992) Self-reversal of isothermal remanent magnetisation in a pyrrhotite (Fe7S8)crystal, Physics of the Earth Planetary Interiors 70, 302 -311.Ziegler J.F. (2004) SRIM-2003, Nuclear Instruments and Methods in Physics Research SectionB 219-220, 1027-1036, doi:10.1016/j.nimb.2004.01.208.
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