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International Workshop on Magnetic Observatory Instruments - старонка 50

72 (17 suppl.), 97, 1991.

Jackson, M.J., P. Rochette, G. Fillion, S.K. Banerjee, and J.A. Marvin, Rock magnetism of remagnetized Paleozoic carbonates: low-temperature behavior and susceptibility characteristics, J. Geophys. Res. B, 98, 6217–6225, 1993.

Jackson, M.J., D. Sprowl, and B. Ellwood, Anisotropies of partial anhysteretic remanence and susceptibility in compacted black shales: grainsize- and composition-dependent magnetic fabric, Geophys. Res. Lett., 16, 1063–1066, 1989.

Jackson, M.J., W.-W. Sun, and J.P. Craddock, The rock magnetic fingerprint of chemical remagnetization in midcontinental Paleozoic carbonates, Geophys. Res. Lett., 19, 781–784, 1992.

Jackson, M.J., and L. Tauxe, Anisotropy of magnetic susceptibility and remanence: developments in the characterization of tectonic, sedimentary, and igneous fabric, Rev. Geophys., 29, suppl. (IUGG Report–Contributions in Geomagnetism and Paleomagnetism), 371–376, 1991.

Jackson, M.J., and R. Van der Voo, Drilling-induced remanence in carbonate rocks: occurrence, stability, and grain-size dependence, Geophys. J. R. Astr. Soc., 81, 75–87, 1985.

Jackson, M.J., and R. Van der Voo, A Lower Ordovician paleomagnetic pole from the Oneota Dolomite, Upper Mississippi River Valley, J. Geophys. Res. B, 90, 10,449–10,461, 1985.

Jackson, M.J., and R. Van der Voo, A paleomagnetic estimate of the age and thermal history of the Kentland, Indiana cryptoexplosion structure, J. Geol., 94, 713–723, 1986.

Jackson, M.J., and R. Van der Voo, Thermally activated viscous remanence in some magnetite- and hematite-bearing dolomites, Geophys. Res. Lett., 13, 1434–1437, 1986.

Jackson, M.J., R. Van der Voo, and J.W. Geissman, Paleomagnetism of Ordovician alkalic intrusives and host rocks from the Pedernal Hills, New Mexico: positive contact test from remagnetized rocks?, Tectonophys., 147, 313–323, 1987.

Jackson, M.J., and H.-U. Worm, Anomalous unblocking temperatures, viscosity and frequency-dependent susceptibility in the chemically-remagnetized Trenton Limestone, Phys. Earth Planet. Inter., 2001, in press.

Jackson, M.J., and H.-U. Worm, Anomalous unblocking temperatures, viscosity and frequency-dependent susceptibility in the chemically-remagnetized Trenton Limestone, Phys. Earth Planet. Inter., 126 (1-2), 27-42, 2001.

Jackson, M.J., H.-U. Worm, and S.K. Banerjee, Fourier analysis of digital hysteresis data (abstract), in IAGA Scientific Assembly, Exeter, UK, 1989.

Jackson, M.J., H.-U. Worm, and S.K. Banerjee, Fourier analysis of digital hysteresis data: rock magnetic applications, Phys. Earth Planet. Inter., 65, 78–87, 1990.

Jacob, R.E., V.R. Mitha, and D. MacPherson, The kaolinitic clay deposits on Beaconsfield, north of Grahamstown, S. Afr. J. Sci, 100 (11-12), 560-564, 2004.

Jacobs, J.A., Causes of changes in reversals of the Earth’s magnetic field: inside or outside the core?, Eos Trans. Am. Geophys. Union, 73, 89–91, 1992.

Jacobs, J.A., From the core or from the skies?, Nature, 323, 296-297, 1986.

Jacobs, J.A., Reversals of the Earth's magnetic field, Adam Hilger Ltd, Bristol, 1984.

Jacobson, G.L., Jr., and H.J.B. Birks, Soil development on recent end moraines of the Klutlan glacier, Yukon Territory, Canada, Quat. Res., 14, 87–100, 1980.

Jacquier, P., J. Ly, and C. Beaucaire, The ion-exchange properties of the Tournemire argillite - I. Study of the H, Na, K, Cs, Ca and Mg behaviour, Appl. Clay Sci, 26 (1-4), 163-170, 2004.

Jacyna-Onyszkiewicz, I., M. Grunwald-Wyspianska, and W.A. Kaczmarek, IR studies of the phase transformation of Fe2O3 implies Fe3O4 by magnetomechanical activation, J. Phys. IV, 7 (C1), 615-16, 1997.

Jae-Gwang, L., C. Kwang Pyo, L. Woo Chun, L. Sung Ho, K. Keun Sik, P. Jae Yun, and L. Yong Bae, Growth of Ba ferrite thin films for magnetic recording media and modification of their magnetic properties, Sae Mulli, 41 (3), 187-92, 2000.

Jaen, J.A., M. Sanchez de Villalaz, L. de Araque, and A. de Bosquez, Kinetics and structural studies of the atmospheric corrosion of carbon steels in Panama, Hyperfine Interact., 110 (1-2), 93-9, 1997.

Jaep, W.F., Role of interactions in magnetic tapes, J. Appl. Phys., 42, 2790–2794, 1971.

Jaffe, J.E., M. Dupuis, and M. Gutowski, First-principles study of noncommutative band offsets at alpha -Cr2O3/ alpha -Fe2O3(0001) interfaces, Physical Review B, 69 (20), 0205106, 2004.

Jagla, E.A., Numerical simulations of two-dimensional magnetic domain patterns - art. no. 046204, Phys. Rev. E, 7004 (4 Part 2), 6204, 2004.

Jaglicic, Z., J. Dolinsek, Z. Trontelj, and J.M. Martinez-Agudo, Magnetic properties of Cd-Mg-Tb quasicrystal, Mater. Sci. Eng. A-Struct. Mater. Prop. Microstruct. Process, 375-77 (Special Issue SI), 998-1001, 2004.

Jain, S., A.O. Adeyeye, and C.B. Boothroyd, Effects of buffer layer on the electronic properties of half-metallic Fe3O4 - art. no. 10C312, J. Appl. Phys., 97 (10 Part 2), C312, 2005.

Jain, S., A.O. Adeyeye, and C.B. Boothroyd, Electronic properties of half metallic Fe3O4 films - art. no. 093713, J. Appl. Phys., 97 (9), 93713, 2005.

Jain, S., A.O. Adeyeye, S.Y. Chan, and C.B. Boothroyd, Interface properties of iron oxide films, J. Phys. D-Appl. Phys, 37 (19), 2720-2725, 2004.

Jalali-Roudsar, A.A., V.P. Denysenkov, and S.I. Khartsev, Determination of magnetic anisotropy constants for magnetic garnet epitaxial films using ferromagnetic resonance, Journal of Magnetism & Magnetic Materials, 288, 15-21, 2005.

Jallad, K.N., and D. Ben-Amotz, Chemical imaging of iron oxides and oxyhydroxides using near infrared Raman imaging microscopy, Materials Science and Technology, 17 (11), 1479-86, 2001.

James, M.A., F.C. Voogt, L. Niesen, O.C. Rogojanu, and T. Hibma, The role of interfacial structure in determining magnetic behaviour in MBE-grown Fe3O4 -MgO multilayers on MgO(001), Surface Science, 402 (S0039), 00013-2, 1998.

James, R.O., D.C. Markham, and R.M. Wexler, Electrical and optical characteristics of the transparent magnetic recording layer in the Advanced Photo System, IEEE Trans. Magn., 33 (5, pt.1), 2653-8, 1997.

Jamieson, H.E., C. Robinson, C.N. Alpers, R.B. McCleskey, D.K. Nordstrom, and R.C. Peterson, Major and trace element composition of copiapite-group minerals and coexisting water from the Richmond mine, Iron Mountain, California, Chem. Geol., 215 (1-4), 387-405, 2005.

Jamon, D., S. Robert, F. Donatini, J.J. Rousseau, C. Bovier, H. Roux, J. Serrughetti, V. Cabuil, and D. Zins, Optical investigation of gamma -Fe2O3 nanoparticle-doped silica gel matrix for birefringent components, IEEE Trans. Magn., 37 (5), 3803-6, 2001.

Jana, N.R., Y.F. Chen, and X.G. Peng, Size- and shape-controlled magnetic (Cr, Mn, Fe, Co, Ni) oxide nanocrystals via a simple and general approach, Chem. Mat, 16 (20), 3931-3935, 2004.

Jana, N.R., C. Yongfen, and P. Xiaogang, Size- and shape-controlled magnetic (Cr, Mn, Fe, Co, Ni) oxide nanocrystals via a simple and general approach, Chem. Mat, 16 (19), 3931-5, 2004.

Janasi, S.R., D. Rodrigues, F.J.G. Landgraf, and M. Emura, Magnetic properties of barium ferrite powders obtained by coprecipitation, Key Engineering Materials, 189-191, 661-6, 2001.

Janecek, T.R., Eolian sedimentation in the northwest Pacific Ocean: a preliminary examination of the data from Deep Sea Drilling Project sites 576 and 578, in Init. Repts. DSDP, edited by G.R. Heath, and L.H. Burckle, pp. 589–603, U. S. Government Printing Office, Washington, 1985.

Janecek, T.R., and D.K. Rea, Eolian deposition in the northeast Pacific Ocean: Cenozoic history of atmospheric circulation, Geol. Soc. Am. Bull., 94, 730–738, 1983.

Jang, J.S., H.G. Kim, V.R. Reddy, S.W. Bae, S.M. Ji, and J.S. Lee, Photocatalytic water splitting over iron oxide nanoparticles intercalated in HTiNb(Ta)O-5 layered compounds, J. Catal, 231 (1), 213-222, 2005.

Jani, K.H., S.S. Laghate, H.H. Jodhi, A. Banerjee, and R.G. Kulkarni, Magnetic properties of spinel system: ZnzTizCoCrx-zFe2-x-zO4, J. Alloys Compounds, 326, 117-120, 2001.

Jani, K.H., K.B. Modi, H.H. Joshi, P.D. Babu, and S.K. Paranjpe, Localized canting of spins structure in the spinel oxide system: ZnzTizFe2-x-zCrx-zCoO4, Journal of Magnetism & Magnetic Materials, 280 (2-3), 334-345, 2004.

Janot, R., and D. Guerard, Ball-milling in liquid media - Applications to the preparation of anodic materials for lithium-ion batteries, Prog. Mater. Sci, 50 (1), 1-92, 2005.

Janot, R., and D. Guerard, Ball-milling in liquid media: applications to the preparation of anodic materials for lithium-ion batteries, Prog. Mater. Sci, 50 (1), 1-92, 2005.

Janowski, J., A. Baranski, and A. Sadowski, Porosity profiles in emerging magnetite layer during the reduction of hematite, Solid State Ionics, Diffusion & Reactions, 2738 (97), 0167-2738, 1997.

Janowski, J., A. Sadowski, W. Kraj, and T. Ratajczak, Determination of porosity of reduced hematite by stereologic methods, J. Mater. Sci., 33 (2), 477-86, 1998.

Jansen, E., U. Bleil, R. Henrich, L. Kringstad, and B. Slettemark, Paleoenvironmental changes in the Norwegian Sea and the Northeast Atlantic during the last 2.8 m.y.: Deep-Sea Drilling Project/Ocean Drilling Program Sites 610, 642, 643 and 644, Paleoceanogr., 3, 563-581, 1988.

Jansen, R., V.A.M. Brabers, and H. van Kempen, One-dimensional reconstruction observed on Fe3O4 (110) by scanning tunneling microscopy, Surface Science, 328, 237–247, 1995.

Jansen, R., B.J. Nelissen, D.L. Abraham, H. van Kempen, and V.A.M. Brabers, Surface structure of Fe3O4 (110) studied by scanning tunneling microscopy, IEEE Trans. Magn., MAG-30, 4506–4508, 1994.

Jansson, L.K., M.T. Gudmundsson, J.L. Smellie, W.C. McIntosh, and R. Esser, Palaeomagnetic, Ar-40/Ar-39, and stratigraphical correlation of Miocene-Pliocene basalts in the Brandy Bay area, James Ross Island, Antarctica, Antarct. Sci, 17 (3), 409-417, 2005.

Jarlbring, M., L. Gunneriusson, and W. Forsling, Characterisation of the protolytic properties of synthetic carbonate free fluorapatite, J. Colloid Interface Sci, 285 (1), 206-211, 2005.

Jarlbring, M., L. Gunneriusson, B. Hussmann, and W. Forsling, Surface complex characteristics of synthetic maghemite and hematite in aqueous suspensions, J. Colloid Interface Sci, 285 (1), 212-217, 2005.

Jarocki, E., X-ray Kbeta emission line of iron in magnetic oxides, Physica Status Solidi B, 204 (2), 857-61, 1997.

Jault, D., and J.L. Le Mouël, Does secular variation involve motions in the deep core?, Phys. Earth Planet. Inter., 82, 185-193, 1994.

Jayasuriya, K.D., H.S. O'Neill, A.J. Berry, and S.J. Campbell, A Mossbauer study of the oxidation state of Fe in silicate melts, Am. Mineral., 89 (11-12), 1597-1609, 2004.

Jeanloz, R., B. O'Neill, M.P. Pasternak, R.D. Taylor, and S.R. Bohlen, Mossbauer spectroscopy of Mg0.9Fe0.1SiO3 perovskite, Geophys. Res. Lett., 19 (21), 2135-2138, 1992.

Jeffrey, G.B., The motion of ellipsoidal particles immersed in a viscous fluid, Proc. R. Soc. A, 102, 161–179, 1922.

Jeje, L.K., A review of geomorphic evidence for climatic change since the Late Pleistocene in the rain-forest areas of southern Nigeria, Palaeogeogr. Palaeoclimatol. Palaeoecol., 31, 63–86, 1980.

Jelenska, M., T. Aifa, M. Kadzialko-Hofmokl, and A. Zelazniewicz, Palaeomagnetic and rock magnetic study of Devonian olistoliths set in Early Carboniferous flysch, West Sudetes, Poland, Geophys. J. Int., 145 (3), 821-34, 2001.

Jelenska, M., V. Bakhmutov, and L. Konstantinienko, Paleomagnetic and rock magnetic data from the Silurian succession of the Dniester basin, Ukraine, Physics of the Earth & Planetary Interiors, 149 (3-4), 307-320, 2005.

Jelenska, M., A. Hasso-Agopsowicz, B. Kopcewicz, A. Sukhorada, K. Tyamina, M. Kadzialko-Hofmokl, and Z. Matviishina, Magnetic properties of the profiles of polluted and non-polluted soils. A case study from Ukraine, Geophys. J. Int., 159 (1), 104-116, 2004.

Jelenska, M., M. Kadzialko-Hofmokl, J.B. Edel, L. Jamrozik, N. Petersen, and H. Soffel, Palaeomagnetic investigation of the Palaeozoic circum-Sowie Góry Mountains ophiolotic belt in the Sudetes, Poland, Geophys. J. Int., 122, 658-674, 1995.

Jelinek, V., Characterization of the magnetic fabric of rocks, Tectonophys., 79, T63-T67, 1981.

Jelinek, V., Statistical processing of anisotropy of magnetic susceptibility measures on groups of specimens, Studia geophisica et geodetica, 22, 50-62, 1978.

Jelinek, V., The statistical theory of measuring anisotropy of magnetic susceptibility of rocks and its application, 63 pp., Geophyzika, Brno, 1976.

Jelínek, V., Characterization of the magnetic fabrics of rocks, Tectonophys., 79, T63–T67, 1981.

Jelínek, V., Potential energy density tensor and magnetic anisotropy problems, Phys. Earth Planet. Inter., 51, 361–364, 1988.

Jelinowska, A., P. Tucholka, F. Gasse, and J.C. Fontes, Mineral magnetic record of environment in Late Pleistocene and Holocene sediments, Lake Manas, Xinjiang, China, Geophys. Res. Lett., 22, 953–956, 1995.

Jelinowska, A., P. Tucholka, F. Guichard, I. Lefevre, D. Badaut-Trauth, F. Chalie, F. Gasse, N. Tribovillard, and A. Desprairies, Mineral magnetic study of Late Quaternary South Caspian Sea sediments: palaeoenvironmental implications, Geophys. J. Int., 133 (2), 499-509, 1998.

Jelinowska, A., P. Tucholka, and K. Wieckowski, Magnetic properties of sediments in a Polish lake: evidence of a relation between the rock-magnetic record and environmental changes in Late Pleistocene and Holocene sediments, Geophys. J. Int., 129 (3), 727-736, 1997.

Jendelova, P., V. Herynek, J. DeCroos, K. Glogarova, B. Andersson, M. Hajek, and E. Sykova, Imaging the fate of implanted bone marrow stromal cells labeled with superparamagnetic nanoparticles, Magnetic Resonance in Medicine, 50 (4), 767-76, 2003.

Jeng, H.T., G.Y. Guo, and D.J. Huang, Charge-orbital ordering and verwey transition in magnetite - art. no. 156403, Phys. Rev. Lett., 9315 (15), 6403, 2004.

Jen-Hwa, H., Y.H. Huang, P.K. Tseng, and D.E. Chen, Mossbauer studies of Fe-Pb-O granular films with enhanced tunneling magnetoresistance effect, IEEE Trans. Magn., 34 (4, pt.1), 909-11, 1998.

Jenny, H., Factors of Soil Formation: A System of Quantitative Pedology, 281 pp., McGraw-Hill, New York, 1941.

Jensen, J.H., and R. Chandra, Theory of nonexponential NMR signal decay in liver with iron overload or superparamagnetic iron oxide particles, Magnetic Resonance in Medicine, 2010-07-19 18:44 Читать похожую статью
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