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Kovacheva, M., Archaeomagnetic investigation of some prehistoric sites in Bulgaria, Archaeometr., 18, 99–106, 1976.

Kovacheva, M., Archaeomagnetic data from Bulgaria and southeastern Yugoslavia, in Geomagnetism of Baked Clays and Recent Sediments, edited by K.M. Creer, P. Tucholka, and C. Barton, pp. 106–111, Elsevier, New York, 1983.

Kovacheva, M., Archaeomagnetic database from Bulgaria: the last 8000 years, Phys. Earth Planet. Inter., 102 (3-4), 145-51, 1997.

Kovacheva, M., I. Hedley, N. Jordanova, M. Kostadinova, and V. Gigov, Archaeomagnetic dating of archaeological sites from Switzerland and Bulgaria, J. Archaeol. Sci, 31 (10), 1463-1479, 2004.

Kovacheva, M., J. Pares, N. Jordanova, and V. Karloukovski, A new contribution to the archaeomagnetic study of a Roman pottery kiln from Calahorra (Spain), Geophys. J. Int., 123, 931-936, 1995.

Kovacheva, M., and D. Veljovich, Geomagnetic field variations in southeastern Europe between 6500 and 100 B.C., Earth Planet. Sci. Lett., 37, 131–138, 1977.

Kovacs, D.A., L.K. Verheij, R. David, and R. Franchy, The structure, motphology, and composition of ultrathin Fe films on CoGa(100) at 550 K, Thin Sol. Films, 65, 131-135, 2004.

Kovacs, L.C., and P.R. Vogt, Depth-to-magnetic scource analysis of the Arctic Ocean region, Tectonophys., 89, 255-294, 1982.

Kovalenko, D.B., and V.L. Zlobin, Remagnetization of the Olyutor terrane strata, south of the Koryak highland, Izvestiya, Physics of the Solid Earth, 35 (2), 138-49, 1999.

Kovalenko, D.V., E.E. Chernov, and M.V. Aleksyutin, Petromagnetism of remagnetized folded sequences surrounding the sea of Okhotsk, Izvestiya-Physics of the Solid Earth, 41 (1), 49-63, 2005.

Kovalenko, D.V., E.E. Chernov, and D.V. Kurilov, Paleomagnetism of Upper Cretaceous and Cenozoic geological complexes in the western and eastern Kamchatka areas, Izvestiya, Physics of the Solid Earth, 38 (6), 469-84, 2002.

Kovalenko, D.V., L.L. Remizova, and Y.Y. Yaroslavtseva, Paleomagnetism of geological complexes of the Olyutorskii Range, southern Koryak Highland, Izvestiya, Physics of the Solid Earth, 34 (12), 1027-40, 1998.

Kovalenko, D.V., E.V. Shiryaevskii, V.L. Zlobin, and A.V. Nosorev, Paleomagnetism of geological complexes of the Malki protrusion, Kamchatka Peninsula, Izvestiya, Physics of the Solid Earth, 36 (6), 476-88, 2000.

Kovalenko, D.V., and V.L. Zlobin, Comparison of petromagnetic characteristics of remagnetized and nonremagnetized volanic-sedimentary sequences of Kamchatka and the Koryak area, Izvestiya, Physics of the Solid Earth, 36 (11), 965-79, 2000.

Kovalenko, V.I., V.V. Yarmolyuk, V.P. Kovach, A.B. Kotov, I.K. Kozakov, E.B. Salnikova, and A.M. Larin, Isotope provinces, mechanisms of generation and sources of the continental crust in the Central Asian mobile belt: geological and isotopic evidence, J Asian Earth Sci, 23 (5), 605-627, 2004.

Kovalenko, V.V., M.N. Rumyantseva, P.B. Fabritchnyi, and A.M. Gaskov, Unusual distribution of the constituents of an (Fe2O3)(0.)8(SnO2)(0.2) nanocomposite evidenced by Fe-57 and Sn-119 Mossbauer spectroscopy, Mendeleev Commun (4), 140-141, 2004.

Kovalev, K.R., E.G. Distanov, G.N. Anoshin, I.V. Gas'kov, V.A. Akimtsev, and M.V. Baulina, Gold and silver in ores of volcanogenic hydrothermal and hydrothermal-sedimentary pyrite-polymetallic deposits of Siberia, Geol. Geofiz, 45 (10), 1171-1185, 2004.

Kovalevych, V.M., V. Carmona, J.J. Pueyo, and T.M. Peryt, Ultramicrochemical analyses (UMCA) and cryogenic scanning electron microscopy (cryo-SEM-EDS) of brines in halite-hosted fluid inclusions: A comparative study of analytical data, Geochem. Int, 43 (3), 268-276, 2005.

Kozhuharova, R., M. Ritschel, D. Elefant, A. Graff, A. Leonhardt, I. Monch, T. Muhl, S. Groudeva-Zotova, and C.M. Schneider, Well-aligned Co-filled carbon nanotubes: preparation and magnetic properties, Applied Surface Science, 238 (1-4), 355-359, 2004.

Kozlowski, A., Z. Kakol, D. Kim, R. Zalecki, and J.M. Honig, Heat capacity of Fe3-MO4 (M=Zn, Ti, 00.04), Phys. Rev. B, 54 (17), 12,093-12,098, 1996.

Kozlowski, A., Z. Kakol, D. Kim, R. Zalecki, and J.M. Honig, Heat capacity study of Ti and Zn-doped magnetite, Z. Anorg. Allg. Chem, 623 (1), 115-118, 1997.

Kozlowski, A., Z. Kakol, R. Zalecki, K.S. Knight, and J.M. Honig, Heat capacity and neutron diffraction of low doped Fe3-xZnxO4, J. Phys. IV, 7 (C1), 591-2, 1997.

Kozlowski, M., R. Kozubski, V. Pierron-Bohnes, and W. Pfeiler, L1(0)-ordering kinetics in FePt nano-layers: Monte Carlo simulation, Comput. Mater. Sci, 33 (1-3), 287-295, 2005.

Krabbes, G., U. Gerlach, and W. Reichelt, Isotope enrichment caused by diffusion during the chemical transport of Fe2O3 under microgravitation, Z. Anorg. Allg. Chem, 631 (2-3), 375-380, 2005.

Krafft, C.S., R.M. Josephs, and D.S. Crompton, Magneto-optic Kerr effect hysteresis loop measurements of particulate recording media, IEEE Trans. Magn., MAG-22, 662–664, 1986.

Kramer, R.B.G., V.S. Egorov, A.G.M. Jansen, and W. Joss, Hysteresis in the de Haas-van Alphen effect - art. no. 187204, Phys. Rev. Lett., 9518 (18), 7204, 2005.

Kramm, U., Die Metamorphose des Venn-Stavelot-Massivs, nordwestliches Rheinisches Schiefergebirge; Grad, Alter und Ursache, Decheniana, 135, 121-178, 1982.

Kramm, U., Herkunft und Ablagerungsmilieu der manganreichen ordvizischen Gesteine des Stavelot-Venn-Massivs, Ardennen, Zeitschrift der deutschen geologischen Gesellschaft, 131, 867-888, 1980.

Kramm, U., and D. Buhl, Rb-Sr Alter der Metamorphose und U-Pb Alter des Tonalit-Magmatismus im Venn-Stavelot-Massiv, ???, ???, ????, ????

Kramm, U., G. Spaeth, and M. Wolf, Metamorphose und Gefügeprägung im nördlichen Stavelot-Venn-Massiv, ???, ???, ????, ????

Krammer, K., Rock magnetic properties and opaque mineralogy of selected samples from ODP hole 670A, Proc. ODP Sci. Res., 106/109, 269–273, 1990.

Krasa, D., V.P. Shcherbakov, T. Kunzmann, and N. Petersen, Self-reversal of remanent magnetization in basalts due to partially oxidized titanomagnetites, Geophys. J. Int., 162 (1), 115-136, 2005.

Krasnova, N.I., and Y.L. Krezer, New data on the nature of fine and ultrafine lamellae in titanomagnetite, Eur. J. Mineral., 7, 1361-1372, 1995.

Krause, G., J. Meincke, and J. Thiede, Scientific cruise reports of Arctic expeditions ARK IV/1, 2 & 3, Reports on Polar Research, 56, 253pp, 1989.

Kravchenko, S.N., First estimate for the age of a mesoproterozoic palaeomagnetic pole from the Volodarsk-Volynsky Massif, the Ukrainian Shield, Stud. Geophys. Geod., 49 (2), 177-190, 2005.

Kravchinsky, V.A., J.P. Cogne, W.P. Harbert, and M.I. Kuzmin, Evolution of the Mongol-Okhotsk Ocean as constrained by new palaeomagnetic data from the Mongol-Okhotsk suture zone, Siberia, Geophys. J. Int., 148 (1), 34-57, 2002.

Kravchinsky, V.A., K.M. Konstantinov, V. Courtillot, J.I. Savrasov, J.P. Valet, S.D. Cherniy, S.G. Mishenin, and B.S. Parasotka, Palaeomagnetism of East Siberian traps and kimberlites: two new poles and palaeogeographic reconstructions at about 360 and 250 Ma, Geophys. J. Int., 148 (1), 1-33, 2002.

Kravchinsky, V.A., M.A. Krainov, M.E. Evans, J.A. Peck, J.W. King, M.I. Kuzmin, H. Sakai, T. Kawai, and D.F. Williams, Magnetic record of Lake Baikal sediments: chronological and paleoclimatic implication for the last 6.7 Myr, Paleogeogr. Paleoclimatol. Paleoecol, 195 (3-4), 281-298, 2003.

Krebs, W., and H. Wachendorf, Proterozoic-Paleozoic geosynclinal and orogenic evolution of central Europe, Geologic Society of America Bulletin, 84, 2611-2630, 1973.

Krijgsman, W., W. Delahaije, C.G. Langereis, and P.L. de Boer, Cyclicity and NRM acquisition in the Armantes section (Miocene, Spain): potential for an astronomical polarity time scale for the continental record, Geophys. Res. Lett., 24 (9), 1027-1030, 1997.

Krijgsman, W., and M. Garces, Palaeomagnetic constraints on the geodynamic evolution of the Gibraltar Arc, Terra Nova, 16 (5), 281-287, 2004.

Krijgsman, W., and L. Tauxe, Shallow bias in Mediterranean paleomagnetic directions caused by inclination error, Earth Planet. Sci. Lett., 222 (2), 685-695, 2004.

Krijgsman, W., and L. Tauxe, E/I corrected paleolatitudes for the sedimentary rocks of the Baja British Columbia hypothesis, Earth Planet. Sci. Lett., 242 (1-2), 205-216, 2006.

Krishnan, R., R. Lopusnik, S. Visnovsky, M. Guyot, N. Keller, and M. Tessier, Magneto -optical studies in NiO/ Fe2O3, J. Appl. Phys., 85 (8), 5771-3, 1999.

Krishnan, V., S. Heislbetz, M.M. Natile, A. Glisenti, and H. Bertagnolli, Influence of preparation technique and iron doping on the structure and reactivity of mixed Fe-Ti-O nanocomposites, Mater. Chem. Phys, 92 (2-3), 394-402, 2005.

Kristjansson, L., On low-latitude virtual geomagnetic poles in Icelandic basalt lava sequences, Phys. Earth Planet. Inter., 115 (2), 137-45, 1999.

Kristjánsson, L., New palaeomagnetic results from Icelandic Neogene lavas, Geophys. J. Int., 121, 435-443, 1995.

Kristjánsson, L., On ‘The relationship between the magnitude and direction of the geomagnetic field during the Late Tertiary in eastern Iceland’ by N. Roberts and J. Shaw, Geophys. J. R. Astr. Soc., 80, 555–559, 1985.

Kristjánsson, L., Investigations on geomagnetic reversals in Icelandic lavas, 1953–1978, Terra Nova, 5, 6–12, 1993.

Kristjansson, L., A. Gudmundsson, and B.S. Hardarson, Stratigraphy and paleomagnetism of a 2.9-km composite lava section in Eyjafjordur, Northern Iceland: a reconnaissance study, Int. J. Earth Sci, 93 (4), 582-595, 2004.

Kristjánsson, L., and L. Gudmundsson, Geomagnetic excursion in late-glacial basalt outcrops in South-Western Iceland, Geophys. Res. Lett., 7, 337-340, 1980.

Kristjansson, L., B.S. Hardarson, and H. Audunsson, A detailed palaeomagnetic study of the oldest ( approximately=15 Myr) lava sequences in northwest Iceland, Geophys. J. Int., 155 (3), 991-1005, 2003.

Kristjansson, L., and H. Johannesson, Secular variation and reversals in a composite 2.5 km thick lava section in central Western Iceland, Earth, Planets and Space, 51 (4), 261-76, 1999.

Kristjánsson, L., and H. Jóhannesson, Variable dispersion of Neogene geomagnetic field directions in Iceland, Phys. Earth Planet. Inter., 56, 124–132, 1989.

Kristjánsson, L., H. Jóhannesson, and I.B. Friðleifsson, Paleomagnetic stratigraphy of the Mosfellssveit area, SW-Iceland: a pilot study, Jökull, 41, 47–60, 1991.

Kristjánsson, L., and M. Sigurgeirsson, The R3–N3 and R5–N5 palaeomagnetic transition zones in SW-Iceland revisited, J. Geomagn. Geoelectr., 45, 275–288, 1993.

Kristoffersen, Y., The Nansen Ridge, Arctic Ocean: some geophysical observations of the rift valley at slow spreading rate, Tectonophys., 89, 161-172, 1982.

Kristoffersen, Y., and E.S. Husebye, Multi-channel seismic reflection measurements in the Eurasian Basin, Arctic Ocean, from U.S. ice station Fram IV, Tectonophys., 114, 103-115, 1985.

Kristoffersen, Y., and M. Talwani, Extinct triple junction south of Greenland and the Tertiary motion of Greenland relative to North America, Geol. Soc. Am. Bull., 88, 1037-1049, 1977.

Kristofikova, Z., M. Cermak, O. Benesova, J. Klaschka, and P. Zach, Exposure of postnatal rats to a static magnetic field of 0.14 T influences functional laterality of the hippocampal high-affinity choline uptake system in adulthood; In vitro test with magnetic nanoparticles, Neurochem. Res, 30 (2), 253-262, 2005.

Krivoruchko, V.N., and T.E. Primak, Scattering of surface magnetic polaritons from order-parameter fluctuations near second-order magnetic phase transitions, Optics and Spectroscopy, 88 (1, p.55), 62-9, 2000.

Krivoruchko, V.N., T.E. Soloveva, and D.A. Yablonskii, Electrically active magnetic polaritons in -Fe2O3, Opt. Spectrosc. (transl. of Opt. Spektrosk.), 68, 550–553, 1990.

Kroft, L.J.M., J. Doornbos, R.J. van der Geest, A. van der Laarse, H. van der Meulen, and A. de Roos, Ultrasmall superparamagnetic particles of iron oxide (USPIO) MR imaging of infarcted myocardium in pigs, Magn. Reson. Imaging, 16 (7), 755-63, 1998.

Krohling, D.M., Sedimentological maps of the typical loessic units in North Pampa, Argentina, Quaternary International, 62, 49-55, 1999.

Kronmüller, H., R. Schützenauer, and F. Waltz, Magnetic aftereffects in magnetite, Phys. Stat. Sol. A, 24, 487–494, 1974.

Kronmüller, H., and F. Walz, Magnetic after-effects in Fe3O4 and vacancy-doped magnetite, Philosophical Magazine B (Physics of Condensed Matter, Electronic, Optical and Magnetic Properties), 42 (3), 433-452, 1980.

Kropacek, V., Stability of anisotropy of magnetic susceptibility under thermal cleaning (abstract), IUGG Gen. Assem. Abstr., 9, 1645, 1987.

Kropácek, V., V. Velicky, and J. Zatecky, Changes in orientation and intensity of remanent magnetization of magnetite samples induced by uniaxial pressure, Phys. Earth Planet. Inter., 76, 163-168, 1993.

Krot, A.N., M.I. Petaev, S.S. Russell, S. Itoh, T.J. Fagan, H. Yurimoto, L. Chizmadia, M.K. Weisberg, M. Komatsu, A.A. Ulyanov, and K. Keil, Amoeboid olivine aggregates and related objects in carbonaceous chondrites: records of nebular and asteroid processes, Chem Erde-Geochem, 64 (3), 185-239, 2004.

Krs, M., and V. Kropácek, A contribution to the magnetic properties of natural cobaltite, Phys. Earth Planet. Inter., 46, 227–232, 1987.

Krs, M., M. Krsová, P. Martinec, and P. Pruner, Palaeomagnetism of the Carboniferous and variegated layers of the Moravian-Silesian region, Geol. Carpathica, 44 (5), 301-314, 1993.

Krs, M., M. Krsova, P. Pruner, and L. Kouklikova, On the detailed magnetostratigraphy of greigite-(smythite) mineralization, Sokolov Brown-Coal Basin, Bohemia, Stud. Geophys. Geod., 35, 267–284, 1991.

Krs, M., M. Krsová, P. Pruner, A. Zeman, F. Novàk, and J. Jansa, A petromagnetic study of Miocene rocks bearing micro-organic material and the magnetic mineral greigite (Sokolov and Cheb basins, Czechoslovakia), Phys. Earth Planet. Inter., 63, 98–112, 1990.

Krs, M., F. Novàk, M. Krsová, P. Pruner, L. Kouklíková, and J. Jansa, Magnetic properties and metastability of greigite-smythite mineralization in brown-coal basins of the Krusné hory Piedmont, Bohemia, Phys. Earth Planet. Inter., 70, 273–287, 1992.

Kruger, A., J. Pyplo-Schnieders, H. Redlich, and P. Winkelmann, 2-haloethyl 1-thioglycosides as new tools in glycoside syntheses. Part 1: Preparation, characteristics, general reactions, Coll. Czech. Chem. Comm., 69 (10), 1843-1876, 2004.

Kruiver, P.P., M.J. Dekkers, and D. Heslop, Quantification of magnetic coercivity components by the analysis of acquisition curves of isothermal remanent magnetisation, Earth Planet. Sci. Lett., 189 (3), 269-76, 2001.

Kruiver, P.P., M.J. Dekkers, and C.G. Langereis, Secular variation in Permian red beds from Dome de Barrot, SE France, Earth Planet. Sci. Lett., 179 (1), 205-17, 2000.

Kruiver, P.P., Y.S. Kok, M.J. Dekkers, C.G. Langereis, and C. Laj, A pseudo-Thellier relative palaeointensity record, and rock magnetic and geochemical parameters in relation to climate during the last 276 kyr in the Azores region, Geophys. J. Int., 136 (3), 757-70, 1999.

Kruiver, P.P., W. Krijgsman, C.G. Langereis, and M.J. Dekkers, Cyclostratigraphy and rock-magnetic investigation of the NRM signal in late Miocene palustrine-alluvial deposits of the Librilla section (SE Spain), J. Geophys. Res., 107 (B12), 1-18, 2002.

Kruiver, P.P., C.G. Langereis, M.J. Dekkers, G.R. Davies, and R.J. Smeets, The implications of non-suppressed geomagnetic secular variation during the Permo-Carboniferous Reversed Superchron, Phys. Earth Planet. Inter., 131 (3), 225-35, 2002.

Kruiver, P.P., C.G. Langereis, M.J. Dekkers, and W. Krijgsman, Rock-magnetic properties of multicomponent natural remanent magnetization in alluvial red beds (NE Spain), Geophys. J. Int., 153 (2), 317-32, 2003.

Krummel, H., Rechnergestützte Verfahren der seismischen Stratigraphie, Dissertation thesis, Bochum, 1991.

Krumsiek, K., and D.G. Roberts, 35. Paleomagnetics of Tertiary sediments from the southwest Rockall Plateau, Deep Sea Drilling Project, Leg 81, in Initial Report of the Deep Sea Drilling Project, Vol. LXXXI, edited by D.G. Roberts, D. Schnitker, and e. al., pp. 837-851, Washington, 1984.

Krupicka, S., and K. Záveta, Magnetic aftereffects in ferrimagnetic oxidic spinels, J. Appl. Phys., 39, 930–938, 1968.

Kruse, T., H.G. Krauthauser, A. Spanoudaki, and R. Pelster, Agglomeration and chain formation in ferrofluids: two-dimensional x-ray scattering, Physical Review B, 67 (2), 24417-1-14, 2003.

Krutikhovskaya, Z.A., and I.K. Pashkevich, Magnetic model for the Earth’s crust under the Ukrainian Shield, Can. J. Earth Sci., 14, 2718–2728, 1977.

Krutikhovskaya, Z.A., and I.K. Pashkevich, Long-wavelength magnetic anomalies as a source of information about deep crustal structure, J. Geophys., 46, 301–317, 1979.

Krutikhovskaya, Z.A., I.M. Silina, N.M. Bondareva, and S.M. Podolyanko, Relation of magnetic properties of the Ukranian Shield to their composition and metamorphism, Can. J. Earth Sci., 16, 984–991, 1979.

Krystyn, L., Y. Gallet, J. Besse, and J. Marcoux, Integrated Upper Carnian to Lower Norian biochronology and implications for the Upper Triassic magnetic polarity time scale, Earth Planet. Sci. Lett., 203 (1), 343-51, 2002.

Kryszewski, M., and J.K. Jeszka, Nanostructured conducting polymer composites-superparamagnetic particles in conducting polymers, Synthetic Metals, 94 (1), 99-104, 1998.

Kryukova, G.N., and S.V. Tsybulya, Microstructural characterization of gamma ferric oxides of different genesis, J. Phys. IV, 7 (C1), 517-18, 1997.

Kubetzka, A., P. Ferriani, M. Bode, S. Heinze, G. Bihlmayer, K. von Bergmann, O. Pietzsch, S. Blugel, and R. Wiesendanger, Revealing antiferromagnetic order of the Fe monolayer on W(001): Spin-polarized scanning tunneling microscopy and first-principles calculations - art. no. 087204, Phys. Rev. Lett., 9408 (8), 7204, 2005.

Kuch, W., L.I. Chelaru, K. Fukumoto, F. Porrati, F. Offi, M. Kotsugi, and J. Kirschner, Layer-resolved imaging of magnetic interlayer coupling by domain-wall stray fields - art. no. 214403, Physical Review B, 6721 (21), 1, 2003.

Kucza, W., Electrostatically driven charge-ordering in magnetite below the Verwey temperature, Solid State Comm., 118 (8), 401-5, 2001.

Kudera, S., L. Manna, and W.J. Parak, On shape controlled nanocrystals and hybrid materials: how nanotransistors.

Kuhlemann, J., H. Lange, and H. Paetsch, Implications of a connection between clay mineral variations and coarse grained debris and lithology in the central Norwegian- Greenland Sea, Mar. Geol., 114, 1-11, 1993.

Kuiper, P., B.G. Searle, L.C. Duda, R.M. Wolf, and P.J. Van Der Zaag, Fe L2,3 linear and circular magnetic dichroism of Fe3O4, Journal of Electron Spectroscopy and Related Phenomena, 86 (1-3), 107-13, 1997.

Kuiper, P., B.G. Searle, P. Rudolf, L.H. Tjeng, and C.T. Chen, X-ray magnetic dichroism of antiferromagnet Fe2O3: the orientation of magnetic moments observed by Fe 2p X-ray absorption spectroscopy, Phys. Rev. Lett., 70, 1549–1552, 1993.

Kukkadapu, R.K., J.M. Zachara, J.K. Fredrickson, D.W. Kennedy, A.C. Dohnalkova, and D.E. McCready, Ferrous hydroxy carbonate is a stable transformation product of biogenic magnetite, Am. Mineral., 90 (2-3), 510-515, 2005.

Kukla, G., F. Heller, X.M. Liu, T.C. Xu, T.S. Liu, and Z.S. An, Pleistocene climates in China dated by magnetic susceptibility, Geology, 16, 811-814, 1988.

Kukla, G.J., Loess stratigraphy of central Europe, in After the Australopithecines, edited by K.W. Butzer, and G.L. Isaac, pp. 99–188, Mouton, The Hague, 1975.

Kukla, G.J., Pleistocene land-sea correlations. I. Europe, Earth Sci. Rev., 13, 307–374, 1977.

Kukla, G.J., Loess stratigraphy in central China, Quat. Sci. Rev., 6, 191–219, 1987.

Kukla, G.J., and Z.-S. An, Loess stratigraphy in central China, Palaeogeogr. Palaeoclimatol. Palaeoecol., 72, 203–225, 1989.

Kukla, G.J., Z.-S. An, J.L. Melice, J. Gavin, and J.-L. Xiao, Magnetic susceptibility record of Chinese loess, Trans. R. Soc. Edinb., 81, 263–288, 1990.

Kukla, G.J., F. Heller, and T.-C. Xu, Frequency-dependent susceptibility of loess and Quaternary climate?? [=Liu et al., 1990?], Quat. Sci., 3, 42–50, 1990.

Kukla, G.J., and A. Kocí, End of the last interglacial in the Loess record, Quat. Res., 2, 374-383, 1972.

Kulkarni, S.K., Reversal of Earth's magnetic field, extinction of dinosaurs and nanoparticles, Physics Education, 14 (4), 386-8, 1998.

Kumagai, N., and N. Kawai, A resonance type magnetometer, Mem. Coll. Sci. Univ. Kyoto, 20, 306–309, 1953.

Kumai, C.S., and T.M. Devine, Oxidation of iron in 288 degrees C, oxygen-containing water, Corrosion, 61 (3), 201-218, 2005.

Kumar, A., S.M. Yusuf, and L. Keller, Structural and magnetic properties of Fe, Physical Review B, 7105 (5), 4414, 2005.

Kumar, A.A., V.P. Rao, S.K. Patil, P.M. Kessarkar, and M. Thamban, Rock magnetic records of the sediments of the eastern Arabian Sea: Evidence for late Quaternary climatic change, Mar. Geol., 220 (1-4), 59-82, 2005.

Kumar, N., W. Curtis, and J.I. Hahma, Laterally aligned, multiwalled carbon nanotube growth using Magnetospirillium magnetotacticum - art. no. 173101, Appl. Phys. Lett., 86 (17), 73101, 2005.

Kumar, R.V., Y. Koltypin, X.N. Xu, Y. Yeshurun, A. Gedanken, and I. Felner, Fabrication of magnetite nanorods by ultrasound irradiation, J. Appl. Phys., 89 (11, pt.1), 6324-8, 2001.

Kumaravel, V., S.J. Sangode, R. Kumar, and N.S. Siddaiah, Magnetic polarity stratigraphy of Plio-Pleistocene Pinjor Formation (type locality), Siwalik Group, NW Himalaya, India, Curr. Sci, 88 (9), 1453-1461, 2005.

Kumaravel, V., S.J. Sangode, N.S. Siddaiah, and R. Kumar, Rock magnetic characterization of pedogenesis under high energy depositional conditions: A case study from the Mio-Pliocene Siwalik fluvial sequence near Dehra Dun, NW Himalaya, India, Sed. Geol., 177 (3-4), 229-252, 2005.

Kündig, W., H. Bömmel, G. Constabaris, and R.H. Lindquist, Some properties of supported small -Fe2O3 particles determined with the Mössbauer effect, Phys. Rev., 142, 327–333, 1966.

Kundu, T.K., and D. Chalravorty, Nanocrystalline MnFe2O4 produced by niobium doping, J. Mater. Res., 14 (10), 3957-61, 1999.


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