Lab-tec™ 1000 User’s Manual, 85, 1992. Parm-3™ User’s Manual (dtech, Inc.), 17, 1993



Download 1.83 Mb.
Page10/50
Date28.05.2018
Size1.83 Mb.
#51346
1   ...   6   7   8   9   10   11   12   13   ...   50

Braginskiy, S.I., The geomagnetic dynamo, Izv. Akad. Nauk SSSR Ser. Fiz. Zemli (Phys. Solid Earth), 14, 659–668, 1978.

Braginskiy, S.I., and J.L. Le Mouël, Two-scale model of a geomagnetic field variation, Geophys. J. Int., 112, 147-158, 1993.

Brahma, P., S. Banerjee, and D. Das, Properties of nanocomposites of alpha -Fe and Fe3O4, J. Magn. Magn. Mater., 246 (1-2), 162-8, 2002.

Brandsma, D., S.P. Lund, and T.L. Henyey, Paleomagnetism of Late Quaternary marine sediments from Santa Catalina Basin, California continental borderland, J. Geophys. Res. B, 94, 547–564, 1989.

Brandt, U., N.R. Nowaczyk, A. Ramrath, A. Brauer, J. Mingram, S. Wulf, and J.F.W. Negendank, Palaeomagnetism of Holocene and Late Pleistocene, Quat. Sci. Rev., 18 (7), 961-76, 1999.

Branlund, J.M., M.C. Kameyama, D.A. Yuen, and Y. Kaneda, Effects of temperature-dependent thermal diffusivity on shear instability in a viscoelastic zone: implications for faster ductile faulting and earthquakes in the spinel stability field, Earth and Palnetary Science Letters, 182, 171-185, 2000.

Brantley, S.L., L. Liermann, and T.D. Bullen, Fractionation of Fe isotopes by soil microbes and organic acids, Geology, 29 (6), 535-538, 2001.

Brassart, J., E. Tric, J.-P. Valet, and E. Herrero-Bervera, Absolute paleointensity between 60 and 400 ka from the Kohala Mountain (Hawaii), Earth Planet. Sci. Lett., 148 (1-2), 141-156, 1997.

Braun, A., Quantitative model for anisotropy and reorientation thickness of the magnetic moment in thin epitaxially strained metal films, Physica B-Condensed Matter, 373 (2), 346-354, 2006.

Braun, D., H. Ron, and S. Marco, Magnetostratigraphy of the hominid tool-bearing Erk el Ahmar Formation in the northern Dead Sea Rift, Israelian Journal of Earth Science, 40, 191-197, 1992.

Bray, J.R., K.T. Kautio, and L. Roy, Characterization of an experimental ferrite LTCC tape system for microwave and millimeter-wave applications, IEEE Trans. Adv. Packag, 27 (3), 558-565, 2004.

Brecher, A., and L. Albright, The thermoremanence hypothesis and the origin of magnetization in iron meteorites, J. Geomagn. Geoelectr., 29, 379–400, 1977.

Brecher, H.H., and L.G. Thompson, Measurement of the retreat of Qori Kalis glacier in the tropical Andes of Peru by terrestrial photogrammetry, Photogramm. Eng. Remote Sensing, 59, 1017–1022, 1993.

Breckenridge, A., T.C. Johnson, S. Beske-Diehl, and J.S. Mothersill, The timing of regional lateglacial events and post-glacial sedimentation rates from Lake Superior, Quat. Sci. Rev., 23 (23-24), 2355-2367, 2004.

Breitzke, M., Ein Normalmodensummations- und ein Frequenz-Wellenzahl-Verfahren zur Modellierung, Rekompression und Migration dispersiver Flözwellen, Dissertation thesis, Bochum, 1990.

Breitzke, M., L. Dresen, J. Csokas, A. Gyulai, and T. Ormos, Parameter estimation and fault detection by three-component seismic and geoelectrical surveys in a coal mine, Geophysical Prospecting, 35, 832-863, 1987.

Brem, F., A.M. Hirt, C. Simon, H.G. Wieser, and J. Dobson, Characterization of iron compounds in tumour tissue from temporal lobe epilepsy patients using low temperature magnetic methods, Biometals, 18 (2), 191-197, 2005.

Bremand, F., and A. Lagarde, Bidimensional spectral analysis of a crossed lines grating - application to the determination of large and small deformations, Comptes Rendus De L Academie Des Sciences Serie Ii Mecanique Physique Chimie Sciences De L Univers Sciences De La Terre, 90, 45-50, 1988.

Brems, S., D. Buntinx, A. Volodin, and C. Van Haesendonck, Electrical transport study of exchange bias in patterned Co/CoO bilayers, Journal of Magnetism & Magnetic Materials, 290 (Part 2 Special Issue SI), 1138-1141, 2005.

Brescia, M., B. D'Argenio, V. Ferreri, G. Longo, N. Pelosi, S. Rampone, and R. Tagliaferri, Neural net aided detection of astronomical periodicities in geologic records, Earth Planet. Sci. Lett., 139, 33-45, 1996.

Breuer, D., and T. Spohn, Possible Flush Instability in Mantle Convection at the Archean-Proterozoic Transition, Nature, 378 (6557), 608-610, 1995.

Breulmann, M., H. Coelfen, H.P. Hentze, M. Antonietti, D. Walsh, and S. Mann, Elastic magnets: template-controlled mineralization of iron oxide colloids in a sponge-like gel matrix, Adv. Mater, 10 (3), 237-41, 1998.

Breulmann, M., S.A. Davis, S. Mann, H.P. Hentze, and M. Antonietti, Polymer-gel templating of porous inorganic macro-structures using nanoparticle building blocks, Adv. Mater, 12 (7), 502-7, 2000.

Brice-Profeta, S., M.A. Arrio, E. Tronc, N. Menguy, I. Letard, C.C. Moulin, M. Nogues, C. Chaneac, J.P. Jolivet, and P. Sainctavit, Magnetic order in gamma - Fe2O3 nanoparticles: a XMCD study, J. Magn. Magn. Mater., 288 (S0304), 01064-9, 2005.

Brice-Profeta, S., M.A. Arrio, E. Tronc, N. Menguy, I. Letard, C.C.D. Moulin, M. Nogues, C. Chaneac, J.P. Jolivet, and P. Sainctavit, Magnetic order in gamma-Fe2O3 nanoparticles: a XMCD study, Journal of Magnetism & Magnetic Materials, 288, 354-365, 2005.

Briden, J.C., and B.A. Duff, Precarboniferous paleomagnetism of Europe north of the Alpine Orogenic Belt, in Paleoreconstructions of the Continents, edited by M.W. McElhinny, and D.A. Valencio, pp. 137-148, American Geophysical Union, 1981.

Briden, J.C., W.A. Morris, and J.D.A. Piper, Palaeomagnetic studies in the British Caledonides-VI regional and global implications, Geophys. J. R. Astr. Soc., 34, 107-134, 1973.

Bridges, J.C., and P.H. Warren, The SNC meteorites: basaltic igneous processes on Mars, J. Geol. Soc, 163, 229-251, 2006.

Brigham-Grette, J., New perspectives on Beringian Quaternary paleogeography, stratigraphy, and glacial history, Quat. Sci. Rev., 20, 15-24, 2001.

Briner, J.P., and D.S. Kaufman, Late Pleistocene glaciation of the Southwestern Ahklun mountains, Alaska, Quat. Res., 55, 13-22, 2000.

Brock, A., and W. Iles, Some observations of rotational remanent magnetization, Geophys. J. R. Astr. Soc., 38, 431–433, 1974.

Brodholt, J., and F. Nimmo, Earth science - Core values, Nature, 418 (6897), 489-491, 2002.

Broecker, W., G. Bond, M. Klas, E. Clark, and J. McManus, Origin of the northern Atlantic’s Heinrich events, Clim. Dyn., 6, 265–273, 1992.

Broecker, W.S., Abrupt climate change: causal constraints provided by the paleoclimate record, Earth-Science Reviews, 51, 137-154, 2000.

Broecker, W.S., and E. Clark, A major dissolution event at the close of MIS 5e in the western equatorial Atlantic, Geochem., Geophys., Geosys., 3 (2), 10.1029, 2002.

Bromwich, D.H., Y. Du, and T.R. Parish, Numerical Simulation of Winter Katabatic Winds from West Antarctica Crossing Siple Coast and the Ross Ice Shelf, Monthly Weather Review`, 122, 1417-1435, 1994.

Brosseau, C., S. Mallegol, P. Queffelec, and J. Ben Youssef, Nonreciprocal electromagnetic properties of nanocomposites at microwave frequencies - art. no. 092401, Physical Review B, 7009 (9), 2401, 2004.

Brosseau, C., and P. Talbot, Effective permittivity of nanocomposite powder compacts, IEEE Transactions on Dielectrics and Electrical Insulation, 11 (5), 819-32, 2004.

Brosseau, C., and P. Talbot, Effective magnetic permeability of Ni and Co micro- and nanoparticles embedded in a ZnO matrix, J. Appl. Phys., 97 (10), 104325-1, 2005.

Brosseau, C., J.B. Youssef, P. Talbot, and A.M. Konn, Electromagnetic and magnetic properties of multicomponent metal oxides heterostructures: nanometer versus micrometer-sized particles, J. Appl. Phys., 93 (11), 9243-56, 2003.

Brothers, L.A., M.H. Engel, and R.D. Elmore, The late diagenetic conversion of pyrite to magnetite by organically complexed ferric iron, Chem. Geol., 130, 1-15, 1996.

Brown, A.P., and W. O'Reilly, Magnetic properties of pulverized titanomagnetite, Fe2.4Ti0.6O4: effect of thermal fluctuations, Geophys. J. Int., 138 (1), 199-204, 1999.

Brown, A.P., and W. O'Reilly, The magnetic hysteresis properties of ball-milled monodomain titanomagnetite, Fe2.4Ti0.6O4, Geophys. Res. Lett., 23 (20), 2863-2866, 1996.

Brown, A.P., and W. O'Reilly, The magnetism and microstructure of pulverized titanomagnetite, Fe2.4Ti0.6O4: the effect of annealing, maghemitization and inversion, Phys. Earth Planet. Inter., 116 (1), 19-30, 1999.

Brown, G.E., G. Calas, and R.J. Hemley, Scientific advances made possible by user facilities, Elements, 2 (1), 23-30, 2006.

Brown, G.E., and G.A. Parks, Synchrotron-based X-ray absorption studies of cation environments in Earth materials, Rev. Geophys., 27, 519–533, 1989.

Brown, G.E., G.A. Parks, and C.J. Chisholm-Brause, In-situ X-ray absorption spectroscopic studies of ions at oxide-water interfaces, Chimia, 43, 248–256, 1989.

Brown, K., and W. O’Reilly, Aqueous maghemitization of titanomagnetite, J. Geophys., 61, 82–89, 1987.

Brown, K., and W. O’Reilly, The effect of low temperature oxidation on the remanence of TRM-carrying titanomagnetite Fe2.4Ti0.6O4, Phys. Earth Planet. Inter., 52, 108–116, 1988.

Brown, L., Paleosecular variation from Easter Island revisited: modern demagnetization of a 1970s data set, Phys. Earth Planet. Inter., 133 (1), 73-81, 2002.

Brown, L.L., and M.P. Golombek, Tectonic stability of the San Luis Hills, northern Rio Grande rift, Colorado: evidence from paleomagnetic measurements., Geophys. Res. Lett., 24 (4), 473-476, 1997.

Brown, L.L., and S.A. McEnroe, Paleomagnetism of the Egersund-Ogna anorthosite, Rogaland, Norway, and the position of Fennoscandia in the Late Proterozoic, Geophys. J. Int., 158 (2), 479-88, 2004.

Brown, L.L., J.C. Pickens, and B. Singer, Matuyama–Brunhes transition recorded in lava flows of the Chilean Andes: evidence for dipolar field during reversals, Geology, 22, 299–302, 1994.

Brown, L.L., B.S. Singer, J.C. Pickens, and B.R. Jicha, Paleomagnetic directions and 40Ar/39Ar ages from the Tatara-San Pedro volcanic complex, Chilean Andes: lava record of a Matuyama-Brunhes precursor?

tanomagnetite. The polarity change is characterized by a jump from reverse poles to a quasi-stationary cluster of virtual geomagnetic poles over Australia, followed by a jump to normal polarity latitudes. Magnetization of these lavas is thus consistent with either a brief period when the field was dominated by a subequatorial dipole, or a more complex nondipolar field that may reflect the influence of a long-lived regional lower mantle control over a weakened dynamo. The Quebrada Turbia lavas are circa 16 kyr older than those, dated by exactly the same methods, which record a later more complex portion of the reversal at Haleakala volcano, Maui. Moreover, the 792 ka radioisotopic age of these Chilean lavas is older than most astronomical estimates for the Matuyama-Brunhes reversal suggesting that this section may, in fact, record a precursor to the actual field reversal, that is expressed by low paleointensities in more than a dozen well-studied marine sediment cores, J. Geophys. Res., 109 (B12), 0148-0227, 2004.

Brown, L.L., B.S. Singer, J.C. Pickens, and B.R. Jicha, Paleomagnetic directions and Ar-40/Ar-39 ages from the Tatara-San Pedro volcanic complex, Chilean Andes: Lava record of a Matuyama-Brunhes precursor? - art. no. B12101, J Geophys Res-Sol Ea, 109 (B12), 12101, 2004.

Brown, N.E., A. Navrotsky, J.L. Nord, Jr., and S.K. Banerjee, Order-disorder in hematite (Fe2O3)–ilmenite (FeTiO3) solid solutions: magnetic characterization, Am. Mineral., 78, 941–951, 1993.

Brown, W.F., Thermal fluctuations of a single-domain particle, Phys. Rev., 130 (5), 1677-1686, 1963.

Brown, W.F., Jr., Relaxation behavior of fine particles, J. Appl. Phys., 30, 1305-1325, 1959.

Brown, W.F., Jr., and A.E. LaBonte, Structure and energy of one-dimensional walls in ferromagnetic thin films, J. Appl. Phys., 36, 1380–1386, 1965.

Bruce, I.J., J. Taylor, M. Todd, M.J. Davies, E. Borioni, C. Sangregorio, and T. Sen, Synthesis, characterisation and application of silica-magnetite nanocomposites, J. Magn. Magn. Mater., 284 (S0304), 00697-3, 2004.

Bruckshaw, J.M., and E.I. Robertson, The measurement of magnetic properties of rocks, J. Sci. Instr., 25, 444–446, 1948.

Brugger, A., C. Schoppmann, M. Scurr, M. Seidl, G. Sipos, C.Y. Hahn, J. Hassmann, O. Waldmann, and H. Voit, Ultrathin Fe-oxide layers made from Langmuir-Blodgett films, Thin Sol. Films, 338 (1-2), 231-42, 1999.

Brükmann, W., K. Moran, and B. Housen, Directional properties of p-wave velocities and acoustic anisotropy in different structural domains of the northern Barbados accretionary prism complex, Proc. ODP Sci. Res., 156, 116-124, 1997.

Brun, J.-P., and O. Merle, Strain patterns in models of spreading-gliding nappes, Tectonics, 4 (7), 705-719, 1985.

Brunhes, B., Recherches sur la direction d’aimantation des roches volcaniques, J. Phys., 5, 705–??, 1906.

Bruton, D., L. Koch, and J. Repetski, The Saersnes section, Oslo region, Norway - trilobite, graptolite and conodont fossils reviewed, Geol. Mag., 125 (4), 451, 1988.

Bryce, J.G., and D.J. DePaolo, Ph isotopic heterogeneity in basaltic phenocrysts, Geochim. Cosmochim. Acta, 68 (21), 4453-4468, 2004.

Bryson, R.A., and B.M. Goodman, Volcanic activity an climatic change, Science, 207, 1041–1044, 1980.

Bucha, V., Relationship between variations in the geomagnetic field, climate, and atmospheric circulation, Doklady Earth Science Sections (translation of parts of Doklady Akademiia Nauk SSSR), 232, 18–20 (790–793 in original), 1977.

Bucha, V., Geomagnetic reversals in Quaternary revealed from a palaeomagnetic investigation of sedimentary rocks, J. Geomagn. Geoelectr., 22, 253-271, 1970.

Bucha, V., Changes in the geomagnetic field and solar wind - causes of changes of climate and atmospheric circulation, Studia geoph. et geod., 20, 346-365, 1976.

Bucha, V., Variation of the geomagnetic field, the climate, and weather, Stud. Geophys. Geod., 20, 149–167, 1976.

Bucha, V., R.E. Taylor, R. Berger, and E.W. Haury, Geomagnetic intensity: changes during the past 3000 years in the western hemisphere, Science, 168, 111–114, 1970.

Buchan, K.L., G.W. Berger, M.O. McWilliams, D. York, and D.J. Dunlop, Thermal overprinting of natural remanence magnetization and K/Ar ages in metamorphic rocks, J. Geomagn. Geoelectr., 29, 401–410, 1977.

Buchan, K.L., J.K. Mortensen, K.D. Card, and J.A. Percival, Paleomagnetism and U-Pb geochronology of diabase dyke swarms of Minto block, Superior Province, Quebec, Canada, Can. J. Earth Sci., 35 (9), 1054-69, 1998.

Buchan, K.L., E.J. Schwarz, D.T.A. Symons, and M. Stupavsky, Remanent magnetization in the contact zone between Columbia plateau flows and feeder dikes: evidence for groundwater layer at time of intrusion, J. Geophys. Res. B, 85, 1888–1898, 1980.

Buchler, M., P. Schmuki, H. Bohni, T. Stenberg, and T. Mantyla, Semiconducting properties of sputter deposited iron oxides compared with the passive film on iron, Proceedings of the Symposium on Surface Oxide Films Editor, 1996, 172-81, 1996.

Buchler, M., P. Schmuki, H. Bohni, T. Sternberg, and T. Mantyla, Comparison of the semiconductive properties of sputter-deposited iron oxides with the passive film on iron, J. Electrochem. Soc, 145 (2), 378-85, 1998.

Bucur, I., The direction of the terrestial magnetic field in France, during the last 21 centuries. Recent progress, Earth Planet. Sci. Lett., 87, 95-109, 1994.

Budd, D.A., Aragonite-to-calcite transformation during fresh-water diagenesis of carbonates - Insights from pore-water chemistry, Geol. Soc. Am. Bull., 100 (8), 1260, 1988.

Buerge-Weirich, D., P. Behra, and L. Sigg, Adsorption of copper, nickel, and cadmium on goethite in the presence of organic ligands, Aquatic Geochemistry, 9 (2), 65-85, 2003.

Buffett, B.A., Earth's core and the geodynamo, Science, 288 (5473), 2007-2012, 2000.

Buffett, B.A., The thermal state of Earth's core, Science, 299 (5613), 1675-1677, 2003.

Buffett, B.A., H.E. Huppert, J.R. Lister, and A.W. Woods, On the thermal evolution of the Earth's core, J Geophys Res-Sol Ea, 101 (B4), 7989-8006, 1996.

Buffett, B.A., and J.E. Mound, A Green's function for the excitation of torsional oscillations in the Earth's core - art. no. B08104, J Geophys Res-Sol Ea, 110 (B8), 8104, 2005.

Bui, Q.T., Q.A. Pankhurst, and K. Zulqarnain, Inter-particle interactions in biocompatible magnetic fluids, IEEE Trans. Magn., 34 (4, pt.1), 2117-19, 1998.

Bullard, E., Edmond Halley: The first geophysicist, Nature, 178, 891-892, 1956.

Bullard, J.E., and K. White, Dust production and the release of iron oxides resulting from the aeolian abrasion of natural dune sands, Earth Surf. Process. Landf, 30 (1), 95-106, 2005.

Bullock, E.S., M. Gounelle, D.S. Lauretta, M.M. Grady, and S.S. Russell, Mineralogy and texture of Fe-Ni sulfides in CI1 chondrites: Clues to the extent of aqueous alteration on the CI1 parent body, Geochim. Cosmochim. Acta, 69 (10), 2687-2700, 2005.

Bulte, J.W.M., R.A. Brooks, B.M. Moskowitz, L.H. Bryant, Jr., and J.A. Frank, T1 and T2 relaxometry of monocrystalline iron oxide nanoparticles(MION-46L): theory and experiment., Acad. Radiology, 5 (suppl 1), s137-s140, 1998.

Bulte, J.W.M., R.A. Brooks, B.M. Moskowitz, L.H. Bryant, Jr., and J.A. Frank, Relaxometry, magnetometry, and EPR evidence for three magnetic phases in the MR contrast agent MION-46L, J. Magn. Magn. Mater., 194 (1-3), 217-23, 1999.

Bulte, J.W.M., R.A. Brooks, B.M. Moskowitz, L.H. Bryant, Jr., and J.A. Frank, Relaxometry and magnetometry of the MR contrast agent MION-46L, Magnetic Resonance in Medicine, 42 (1-3), 379-384, 1999.

Bulte, J.W.M., M. de Cuyper, D. Despres, and J.A. Frank, Preparation, relaxometry, and biokinetics of PEGylated magnetoliposomes as MR contrast agent, J. Magn. Magn. Mater., 194 (1-3), 204-9, 1999.

Bulte, J.W.M., T. Douglas, S. Mann, R.B. Frankel, B.M. Moskowitz, R.A. Brooks, C.D. Baumgarner, J. Vymazal, M.-P. Strub, and J.A. Frank, Magnetoferritin: characterization of a novel superparamagnetic MR contrast agent, J. Magn. Reson. Imaging, 4, 497-505, 1994.

Bulte, J.W.M., T. Douglas, E. Strable, B.M. Moskowitz, H. Zywicke, and J.A. Frank, Magnetodendrimers as a new class of MR contrast agents for universal, non-specific magnetic labeling of mammalian (stem) cells, Nature Biotechnology, 2001, submitted.

Buluy, O., E. Ouskova, Y. Reznikov, A. Glushchenko, J. West, and V. Reshetnyak, Magnetically induced alignment of FNS, J. Magn. Magn. Mater., 252 (1), 159-61, 2002.

Buluy, O., E. Ouskova, Y. Reznikov, A. Glushchenko, J. West, and V. Reshetnyak, Magnetically induced alignment of ferro-nematic suspension on PVCN-F layer, Molecular Crystals and Liquid Crystals, 375, 81-7, 2002.

Burakov, K.S., D.K. Galyagin, I.E. Nachasova, M.Y. Reshetnyak, D.D. Sokolov, and P.G. Frick, Wavelet analysis of geomagnetic field intensity for the past 4000 years, Izvestiya, Physics of the Solid Earth, 34 (9), 773-8, 1998.

Burakov, K.S., I.E. Nachasova, and A.G. Generalov, Geomagnetic variations from 13 to 2 ka: archaeomagnetic study of the Kazachka monument, Izvestiya, Physics of the Solid Earth, 39 (7), 595-600, 2003.

Buratti, B.J., D.P. Cruikshank, R.H. Brown, R.N. Clark, J.M. Bauer, R. Jaumann, T.B. McCord, D.P. Simonelli, C.A. Hibbitts, G.B. Hansen, T.C. Owen, K.H. Baines, G. Bellucci, J.P. Bibring, F. Capaccioni, P. Cerroni, A. Coradini, P. Drossart, V. Formisano, Y. Langevin, D.L. Matson, V. Mennella, R.M. Nelson, P.D. Nicholson, B. Sicardy, and et al., Cassini visual and infrared mapping spectrometer observations of Iapetus: Detection of CO2, Astrophys. J, 622 (2 Part 2), L149-L152, 2005.

Burbank, D.W., and J. Li, Age and paleoclimatic significance of the loess of Lanzhou, north China, Nature, 316, 429–431, 1985.

Burek, P.J., Device for chemical demagnetization of red beds, J. Geophys. Res., 74, 6710–6712, 1969.

Burek, P.J., An advanced device for chemical demagnetization of red beds, Z. Geophys., 37, 493–498, 1971.

Burgess, J.G., R. Kawaguchi, T. Sakaguchi, R.H. Thornhill, and T. Matsunaga, Evolutionary relationships among Magnetospirillum strains inferred from phylogenetic analysis of 16S rRNA sequesnces, J. Bacteriol., 175, 6689–6694, 1993.

Burgos, W.D., Y.L. Fang, R.A. Royer, G.T. Yeh, J.J. Stone, B.H. Jeon, and B.A. Dempsey, Reaction-based modeling of quinone-mediated bacterial iron(III) reduction, Geochim. Cosmochim. Acta, 67 (15), 2735-2748, 2003.

Burke, K., and T.H. Torsvik, Derivation of Large Igneous Provinces of the past 200 million years from long-term heterogeneities in the deep mantle, Earth Planet. Sci. Lett, 227 (3-4), 531-538, 2004.

Burkert, T., O. Eriksson, P. James, S.I. Simak, B. Johansson, and L. Nordstrom, Calculation of uniaxial magnetic anisotropy energy of tetragonal and trigonal Fe, Co, and Ni (vol B 69, art no 104426, 2004) - art. no. 139901, Physical Review B, 7013 (13), 9901, 2004.

Burkert, T., O. Eriksson, S.I. Simak, A.V. Ruban, B. Sanyal, L. Nordstrom, and J.M. Wills, Magnetic anisotropy of L1(0) FePt and Fe1-xMnxPt - art. no. 134411, Physical Review B, 7113 (13), 4411, 2005.

Burkhard, D.J.M., 57Fe Mossbauer spectroscopy and magnetic susceptibility of iron alkali silicate glasses, Physics and Chemistry of Glasses, 38 (6), 317-22, 1997.

Burlatskaya, S.P., Characteristics of the spectrum of secular geomagnetic field variations in the past 8500 years, Geomagn. Aeron. (transl. of Geomagn. Aeron.), 18, 621–623, 1978.

Burlatskaya, S.P., Spectral features of secular variations in geomagnetic field intensity in the Caucasus and Central Asia, Izvestiya, Physics of the Solid Earth, 35 (4, p.291), 41-7, 1999.

Burlatskaya, S.P., The geomagnetic field variation pattern over the last 6500 years, Izvestiya, Physics of the Solid Earth, 38 (5), 363-70, 2002.

Burlatskaya, S.P., and S.I. Braginskiy, The comparison of archaeomagnetic data with the analytical representation of the geomagnetic field for the last 2000 years, Archaeometr., 20, 73–83, 1978.

Burlatskaya, S.P., S.F. Burlatskii, and A.F. Burlatskii, A 1200-year component of the geomagnetic field direction over the past 84 centuries, Izvestiya, Physics of the Solid Earth, 36 (8), 630-7, 2000.

Burlatskaya, S.P., S.F. Burlatskii, and A.F. Burlatskii, Fast 360- and 600-year variations in the geomagnetic field, Izvestiya, Physics of the Solid Earth, 40 (1), 20-32, 2004.


Download 1.83 Mb.

Share with your friends:
1   ...   6   7   8   9   10   11   12   13   ...   50




The database is protected by copyright ©ininet.org 2024
send message

    Main page