Lab-tec™ 1000 User’s Manual, 85, 1992



Yüklə 1,71 Mb.
səhifə22/50
tarix31.10.2017
ölçüsü1,71 Mb.
1   ...   18   19   20   21   22   23   24   25   ...   50
B$), 7887-7902, 1997.

Gose, W.A., S.T. Johnston, and R.J. Thomas, Age of magnetization of mesoproterozoic rocks from the Natal sector of the Namaqua-Natal belt, South Africa, J. Afr. Earth Sci, 40 (3-4), 137-145, 2004.

Gosk, J., M. Zajac, A. Wolos, M. Kaminska, A. Twardowski, I. Grzegory, M. Bockowski, and S. Porowski, Magnetic anisotropy of bulk GaN : Mn single crystals codoped with Mg acceptors - art. no. 094432, Physical Review B, 7109 (9), 4432, 2005.

Gosselin, D.C., J.J. Papike, R.E. Zartman, Z.E. Peterman, and J.C. Laul, Archean rocks of the black hills, South-Dakota - Reworked basement from the southern extension of the Trans-Hudson Orogen., Geol. Soc. Am. Bull., 100 (8), 1244, 1988.

Gossuin, Y., and J.M. Colet, Cesium adsorption in hydrated iron oxide particles suspensions: an NMR study, J. Magn. Reson, 157 (1), 132-6, 2002.

Gota, S., M. Gautier-Soyer, and M. Sacchi, Fe 2p absorption in magnetic oxides: Quantifying angular-dependent saturation effects, Physical Review B, 62 (7), 4187-90, 2000.

Gota, S., M. Gautier-Soyer, and M. Sacchi, Magnetic properties of Fe2O3 (0001) thin layers, Physical Review B, 64 (22), 224407/1-7, 2001.

Goto, T., and B. Luthi, Charge ordering, charge fluctuations and lattice effects in strongly correlated electron systems, Adv. Phys., 52 (2), 67-118, 2003.

Gough, D., Climate and variability in the solar constant, Nature, 288, 639–640, 1980.

Goulart, A.T., M.F. de Jesus Filho, J.D. Fabris, and J.M.D. Coey, Quantitative Mössbauer analysis of maghemite-hematite mixtures in external applied field, Hyperfine Interact., 83, 451-455, 1994.

Goya, G.F., Magnetic interactions in ball-milled spinel ferrites, J. Mater. Sci., 39 (16-17), 5045-5049, 2004.

Goya, G.F., Handling the particle size and distribution of Fe3O4 nanoparticles through ball milling, Solid State Comm., 130 (12), 783-7, 2004.

Goya, G.F., T.S. Berquo, F.C. Fonseca, and M.P. Morales, Static and dynamic magnetic properties of spherical magnetite nanoparticles, J. Appl. Phys., 94 (5), 3520-8, 2003.

Goya, G.F., and H.R. Rechenberg, Reversibility of the synthesis-decomposition reaction in the ball-milled Cu-Fe-O system, Journal of Physics: Condensed Matter, 10 (50), 11829-40, 1998.

Goya, G.F., and H.R. Rechenberg, Mechanosynthesis of intermetallic Fe100-xAlx obtained by reduction of Al/Fe2O3 composite, Journal of Physics: Condensed Matter, 12 (50), 10579-90, 2000.

Goya, G.F., H.R. Rechenberg, M. Chen, and W.B. Yelon, Magnetic irreversibility in ultrafine ZnFe2O4 particles, J. Appl. Phys., 87 (11), 8005-7, 2000.

Goya, G.F., H.R. Rechenberg, and J.Z. Jiang, Structural and magnetic properties of ball milled copper ferrite, J. Appl. Phys., 84 (2), 1101-8, 1998.

Goya, G.F., M. Veith, R. Rapalavicuite, H. Shen, and S. Mathur, Thermal hysteresis of spin reorientation at Morin transition in alkoxide derived hematite nanoparticles, Appl. Phys. A-Mater. Sci. Process, 80 (7), 1523-1526, 2005.

Graat, P.C.J., H.W. Zandbergen, M.A.J. Somers, and E.J. Mittemeijer, Constitution and crystallography of thin thermaloxide layers on epsilon -Fe2N1-x: a HREM investigation, Oxid. Met, 53 (1), 221-40, 2000.

Grabitz, D., Aufbereitung von verschiedenen organischen Proben für die 14 C-Altersbestimmung durch Beschleunigermassenspektroskopie. Messung von planktonischen Foraminiferen arktischer Sedimente, master thesis, Heidelberg, 1988.

Grabowski, J., New Berriasian palaeopole from the Central West Carpathians (Tatra Mountains, southern Poland): Does it look Apulian?, Geophys. J. Int., 161 (1), 65-80, 2005.

Gradstein, F.M., F.P. Agterberg, J.G. Ogg, J. Hardenbol, P. van Veen, J. Thierry, and Z.-H. Huang, A Mesozoic time scale, J. Geophys. Res. B, 99, 24,051–24,074, 1994.

Grafe, M., and D.L. Sparks, Kinetics of zinc and arsenate co-sorption at the goethite-water interface, Geochim. Cosmochim. Acta, 69 (19), 4573-4595, 2005.

Graham, I., The investigation of the magnetic properties of archaeological sediments, in Geoarchaoelogy, Earth Science and the Past, edited by D.A. Davidson, and M.L. Shackley, pp. 49–63, Gerald Duckworth and Co., Ltd., London, 1976.

Graham, I., and I. Scollar, Limitatons on magnetic prospection in archaeology imposed by soil properties, Archaeo-Physika, 6, 1–125, 1976.

Graham, I.T., S. de Waal, A. de Waal, and B. Marshall, Late-magmatic calcite-pyrrhotite-chalcopyrite mineralisation associated with magmatically-evolved diorite, Marble Hall, South Africa, S. Afr. J. Geol, 107 (4), 545-558, 2004.

Graham, J.W., Significance of magnetic anisotropy in Appalachian sedimentary rocks, in The Earth Beneath the Continents, edited by J.S. Steinhart, and T.J. Smith, pp. 627–648, American Geophysical Union, Geophysical Monograph Series, Washington, 1966.

Graham, J.W., Magnetic susceptibility anisotropy, an unexploited petrofabric element, Geol. Soc. Am. Bull., 65, 1257–1258, 1954.

Graham, J.W., The stability and significance of magnetism in sedimentary rocks, J. Geophys. Res., 54, 131–167, 1949.

Graham, J.W., A.F. Buddington, and J.R. Balsley, Stress-induced magnetization of some rocks with analyzed magnetic minerals, J. Geophys. Res., 62, 465–474, 1957.

Graham, K.W.T., The remagnetization of a surface outcrop by lightning currents, Geophys. J. R. Astr. Soc., 6, 85-102, 1961.

Graham, S., Remanent magnetization of modern tidal flat sediments from San Francisco Bay, California, Geology, 2, 223–226, 1974.

Grand, T., Mesozoic extensional inherited structures on the European margin of the Ligurian tethys - The example of the Bourg Doisans Half-Graben, Western Alps, Bull. Soc. Geol. Fr, 4 (4), 613, 1988.

Grand, T., H. Lapierre, G.H. Mascle, M. Ohnenstetter, and J. Angelier, Superimposed tectonics of the Cyprus ophiolitic massifs, Tectonics, 12 (1), 93-101, 1993.

Granoszewski, W., D. Demske, M. Nita, G. Heumann, and A.A. Andreev, Vegetation and climate variability during the Last Interglacial evidenced in the pollen record from Lake Baikal, Global Planet. Change, 46, 1-4, 2005.

Grant, F.S., Aeromagnetics, geology, and ore environments, II. Magnetite and ore environments, Geoexplor., 23, 335–362, 1984/85.

Grant, F.S., Aeromagnetics, geology, and ore environments, I. Magnetite in igneous, sedimentary, and metamorphic rocks: an overview, Geoexplor., 23, 303–333, 1984/85.

Gratton, M.N., A. Goguitchaichvili, G. Conte, J. Shaw, and J. Urrutia-Fucugauchi, Microwave palaeointensity study of the Jorullo volcano (Central Mexico), Geophys. J. Int., 161 (3), 627-634, 2005.

Gratton, M.N., J. Shaw, and E. Herrero-Bervera, An absolute palaeointensity record from SOH1 lava core, Hawaii using the microwave technique, Physics of the Earth & Planetary Interiors, 148 (2-4), 193-214, 2005.

Gravano, S.M., D. R., K. Liu, and T.E. Patten, Methods for the surface functionalization of .gamma.Fe2O3 nanoparticles with initiators for atom transfer radical polymerization and the formation of core-shell inorganic-polymer structures, Journal of Polymer Science, Part A, vol.43, no.16, p. 3675-88, 35 refs., 2005.

Gravenor, C.P., D.T.A. Symons, and D.A. Coyle, Errors in the anisotropy of magnetic susceptibility and magnetic remanence of unconsolidated sediments produced by sampling methods, Geophys. Res. Lett., 11 (9), 836-839, 1984.

Gravina, P.P., A.F. Bakuzis, K.S. Neto, R.B. Azevedo, and P.C. Morais, Investigation of the pH effect on the stability of biocompatible magnetic fluids using time-dependent birefringence measurements, Journal of Magnetism & Magnetic Materials, 289, 448-451, 2005.

Greenberg, M., K. Canter, I. Mahler, and A. Tornheim, Observation of magnetoreceptive behavior in a multicellular magnetotactic prokaryote in higher than geomagnetic fields, Biophys. J, 88 (2), 1496-1499, 2005.

Greene, M.E., A.N. Chiaramonti, S.T. Christensen, L.X. Cao, M.J. Bedzyk, and M.C. Hersam, Controlled nanoscale morphology of hematite (0001) surfaces grown by chemical vapor transport, Adv. Mater, 17 (14), 1765-+, 2005.

Greenough, J.D., J. Dostal, and L.M. Mallory-Greenough, Igneous rock associations - 4. Oceanic island volcanism mineralogy and petrology, Geosci. Can, 32 (1), 29-45, 2005.

Greenwood, N.N., and T.C. Gibb, Mössbauer Spectroscopy, 659 pp., Chapman and Hall, London, 1971.

Greff-Lefftz, M., Upwelling plumes, superswells and true polar wander, Geophys. J. Int., 159 (3), 1125-37, 2004.

Gregoire, V., M. de Saint Blanquat, A. Nedelec, and J.-L. Bouchez, Shape anisotropy versus magnetic interactions of magnetite grains: Experiments and application to AMS in granitic rocks, Geophys. Res. Lett., 22, 2765-2768, 1995.

Greiner, B., Euler rotations in plate-tectonic reconstructions, Computers & Geosciences, 25 (3), 209-16, 1999.

Grey, I., C. MacRae, E. Silvester, and J. Susini, Behaviour of impurity elements during the weathering of ilmenite, Mineral. Mag., 69 (4), 437-446, 2005.

Gridin, V.V., G.R. Hearne, and J.M. Honig, Magnotoresistance extremum at the first-order Verwey transition in magnetite (Fe3O4), Phys. Rev. B, 53 (23), 15,518-15,521, 1996.

Griffin, R.J., H. Windon, and E.D. Goldberg, The distribution of clay minerals in the world ocean, Deep Sea Res., 15, 433–459, 1968.

Griffiths, D.H., The remanent magnetism of varved clays from Sweden, Mon. Not. R. Astr. Soc. Geophys. Suppl., 7, 103–114, 1955.

Griffiths, D.H., R.F. King, A.I. Rees, and A.E. Wright, Remanent magnetism of some recent varved sediments, Proc. R. Soc. A, 256, 359–383, 1960.

Grigal, D.F., R.C. Severson, and G.E. Goltz, Evidence of eolian activity in north central Minnesota 800 to 5000 years ago, Geol. Soc. Am. Bull., 87, 1251–1254, 1976.

Grigoriev, S.V., D. Eberbeck, and V.V. Runov, Neutron depolarization study of the Fe3O4-based frozen ferrofluids, Physica B, 297 (1), 253-7, 2001.

Grimley, D.A., N.K. Arruda, and M.W. Bramstedt, Using magnetic susceptibility to facilitate more rapid, reproducible and precise delineation of hydric soils in the midwestern USA, Catena, 58 (2), 183-213, 2004.

Grimley, D.A., L.R. Follmer, and E.D. McKay, Magnetic susceptibility and mineral zonations controlled by provenance in loess along the Illinois and Central Mississippi River Valleys, Quat. Res., 49 (1), 24-36, 1998.

Grimley, D.A., L.R. Follmer, and E.D. McKay, Magnetic susceptibility and mineral zonations controlled by provenance in loess along the Illinois and Central Mississippi river valley, Quat. Res., 49, 24-36, 1998.

Grimm, E.C., G.L. Jacobson, Jr., W.A. Watts, B.C.S. Hansen, and K.A. Maasch, A 50,000 yr record of climatic oscillations from Florida and its temporal correlation with the Heinrich events, Science, 261, 198–200, 1993.

Grimm, S., M. Schultz, S. Barth, and R. Muller, Flame pyrolysis-a preparation route for ultrafine pure gamma -Fe2O3 powders and the control of their particle size and properties, J. Mater. Sci., 32 (4), 1083-1092, 1997.

Griscom, D.L., A. Akiyoshi, T. Homae, K. Kondo, C. Yamanaka, T. Ueno, M. Ikeya, M. Affatigato, and A. Schue, Fossil natural glasses composed of ferric oxyhydroxides: impactites of the 35.5 million year old Chesapeake Bay crater, Journal of Non Crystalline Solids, 323 (1-3), 7-26, 2003.

Grogan, K.L., R.J. Gilkes, and B.G. Lottermoser, Maghemite formation in burnt plant litter at East Trinity, North Queensland, Australia, Clay Clay Min, 51 (4), 390-396, 2003.

Grolimund, D., M. Senn, M. Trottmann, M. Janousch, I. Bonhoure, A.M. Scheidegger, and M. Marcus, Shedding new light on historical metal samples using micro-focused synchrotron X-ray fluorescence and spectroscopy, Spectroc. Acta Pt. B-Atom. Spectr, 59 (10-11), 1627-1635, 2004.

Grommé, S., and E. Mankinen, Natural remanent magnetization, magnetic properties, and oxidation of titanomagnetites in basaltic rocks from DSDP leg 34, in Init. Repts. DSDP, edited by R.S. Yeats, and S.R. Hart, pp. 485–494, U. S. Government Printing Office, Washington, 1976.

Grommé, S., T.L. Wright, and D.L. Peck, Magnetic properties and oxidation of iron-titanium oxide minerals in Alae and Makaopuhi lava lakes, Hawaii, J. Geophys. Res., 74, 5277–5294, 1969.

Grootes, P.M., Carbon-14 time scale extended: comparison of chronologies, Science, 200, 11–15, 1978.

Groshong, R.H., Jr., Strain calculated from twinning in calcite, Geol. Soc. Am. Bull., 83, 2025–2038, 1972.

Groshong, R.H., Jr., Experimental test of least-squares strain calculations using twinnned calcite, Geol. Soc. Am. Bull., 85, 1855–1864, 1974.

Grosseau, P., A. Bachiorrini, and B. Guilhot, Preparation of polycrystalline yttrium iron garnet ceramics, Powder Technol., 93 (3), 247-51, 1997.

Grossinger, R., M. Taraba, and A. Wimmer, Calibration of an industrial pulsed field magnetometer, IEEE Trans. Magn., 38 (5), 2982-4, 2002.

Grosvenor, A.P., B.A. Kobe, M.C. Biesinger, and N.S. McIntyre, Investigation of multiplet splitting of Fe 2p XPS spectra and bonding in iron compounds, Surf. Interface Anal, 36 (12), 1564-1574, 2004.

Grosvenor, A.P., B.A. Kobe, and N.S. McIntyre, Examination of the oxidation of iron by oxygen using X-ray photoelectron spectroscopy and QUASES TM, Surface Science, 565, 2-3, 2004.

Grosvenor, A.P., B.A. Kobe, N.S. McIntyre, S. Tougaard, and W.N. Lennard, Use of QUASES TM /XPS measurements to determine the oxide composition and thickness on an iron substrate, Surface and Interface Analysis, 36 (7), 632-9, 2004.

Grousset, F.E., L. Labeyrie, J.A. Sinko, M. Cremer, G. Bond, J. Duprat, E. Cortijo, and S. Huon, Patterns of ice-rafted detritus in the glacial North Atlantic (40–55°N), Paleoceanogr., 8, 175–192, 1993.

Grujicic, D., and B. Pesic, Micromagnetic studies of nickel microbars fabricated by nanoimprint lithography and electrodeposition, Journal of Magnetism & Magnetic Materials, 288, 196-204, 2005.

Grum, J., Development and testing of new sensors for the study of magnetic Barkhausen noise, International Journal of Materials & Product Technology, 26 (1-2), 152-162, 2006.

Grünig, S., Quartäre Sedimentationsprozesse am Kontinentalhang des Süd-Orkney-Plateaus im nordwestlichen Weddellmeer, Antarktis (Quaternary sedimentation processes on the continental margin of the South Orkney Plateau, NW Weddell Sea, Antarctica; engl. abstr.), Dissertation thesis, Bremen, 1991.

Grunow, A.M., and J. Encarnacion, Terranes or Cambrian polar wander: new data from the Scott Glacier area, Transantarctic Mountains, Antarctica, Tectonics, 19 (1), 168-81, 2000.

Grunow, A.M., and J.P. Encarnacion, Cambro-Ordovician palaeomagnetic and geochronologic data from southern Victoria Land, Antarctica: revision of the Gondwana apparent polar wander path, Geophys. J. Int., 141 (2), 391-400, 2000.

Grygar, T., J. Hradilova, D. Hradil, P. Bezdicka, and S. Bakardjieva, Analysis of earthy pigments in grounds of Baroque paintings, Analytical And Bioanalytical Chemistry, 375 (8), 1154-1160, 2003.

Grzeta, B., A. Ristic, I. Nowik, and S. Music, Formation of nanocrystalline magnetite by thermal decomposition of iron choline citrate, J. Alloys Compounds, 334, 304-12, 2002.

Gu, J.L., J.L. Shi, L.M. Xiong, H.R. Chen, and M.L. Ruan, A new strategy to incorporate highly dispersed nanoparticles into the pore channels of mesoporous silica thin films, Microporous & Mesoporous Materials, 74 (1-3), 199-204, 2004.

Gu, L.X., X.Q. Tang, Y.C. Zheng, C.Z. Wu, Z.M. Tian, J.J. Lu, X.J. Xiao, and P. Ni, Deformation, metamorphism and ore-component remobilization of the Archaean massive sulphide deposit at Hongtoushan, Liaoning province, Acta Petrol. Sin, 20 (4), 923-934, 2004.

Guanxiong, L., S.X. Wang, and S. Shouheng, Model and experiment of detecting multiple magnetic nanoparticles as biomolecular labels by spin valve sensors, IEEE Trans. Magn., 40 (4), 3000-2, 2004.

Guanzhou, Q., J. Tao, F. Xiaohui, Z. Deqing, and H. Zhucheng, Effects of binders on balling behaviors of iron ore concentrates, Scand. J. Metall, 33 (1), 39-46, 2004.

Gubbins, D., Historical secular variation and geomagnetic theory, in Geomagnetism and Paleomagnetism, edited by F.J. Lowes, D.W. Collinson, J.H. Parry, S.K. Runcorn, D.C. Tozer, and A. Soward, Kluwer Academic Publishers, Dordrecht, 1989.

Gubbins, D., Thermal core-mantle interactions and time-averaged paleomagnetic field, J. Geophys. Res., 93 (B4), 3413-3420, 1988.

Gubbins, D., Machanism for geomagnetic polarity reversals, Nature, 326, 167-169, 1987.

Gubbins, D., Finding core motions from magnetic observations, Phil. Trans. Roy. Soc. London A, 306, 247–254, 1982.

Gubbins, D., Geomagnetic polarity reversals: a connection with secular variation and core-mantle interaction?, Rev. Geophys., 32, 61–83, 1994.

Gubbins, D., and J. Bloxham, Morphology of the geomagnetic field and implications for the geodynamo, Nature, 325, 509-511, 1987.

Gubbins, D., and R.S. Coe, Longitudinally confined geomagnetic reversal paths from non-dipolar transition fields, Nature, 362, 51-53, 1993.

Gubbins, D., and P. Kelly, On the analysis of paleomagnetic secular variation, J. Geophys. Res. B, 100 (B8), 14,955-14,964, 1995.

Gubbins, D., and J.J. Love, Preferred VGP paths during geomagnetic polarity reversals: symmetry considerations, Geophys. Res. Lett., 25 (7), 1079-82, 1998.

Gubbins, D., and M. Richards, Coupling of the core dynamo and mantle: Thermal or Topographic?, Geophys. Res. Lett., 13, 1521-1524, 1986.

Gubbins, D., and K. Zhang, Symmetry properties of the dynamo equations for palaeomagnetism and geomagnetism, Phys. Earth Planet. Inter., 75, 225–241, 1993.

Guena, S.E., and H. Vizan, New Early Cretaceous palaeomagnetic pole from Cordoba Province (Argentina): revision of previous studies and implications for the South American database, Geophys. J. Int., 135 (3), 1085-100, 1998.

Guérin, G., La thermoluminescense des plagioclases. Méthode de datation du volcanisme. Applications au domaine volcanique français: Chaîne des Puys, Mont Dore et Cezallier, Bas Vivarais, Thèse thesis, Paris, 1983.

Guérin, G., and G. Valladas, Thermoliminescence dating of volcanic palgioclases, Nature, 286, 697-699, 1980.

Guerrak, S., Ordovician ironstone sedimentation in Ougarta ranges - North Western Sahara (Algeria), Journal of African Earth Sciences And The Middle East, 7 (3), 50-52, 1988.

Guerrero, B.O., R. Thompson, and J.U. Fucugauchi, Magnetic properties of lake sediments from Lake Chalco, central Mexico, and their paleoenvironmental implications, J. Quat. Sci., 15 (2), 127-140, 2000.

Guerreroa, H., G. Rosa, M.P. Morales, F. del Monte, E. Moreno, D. Levy, R. Perez del Real, T. Belenguer, and C.J. Sema, Faraday rotation in magnetic gamma - Fe2O3 /SiO2 nanocomposites, Appl. Phys. Lett., 71 (18), 2698-700, 1997.

Guibaud, G., S. Comte, F. Bordas, S. Dupuy, and M. Baudu, Comparison of the complexation potential of extracellular polymeric substances (EPS), extracted from activated sludges and produced by pure bacteria strains, for cadmium, lead and nickel, Chemosphere, 59 (5), 629-638, 2005.

Guifu, Z., X. Kan, J. Changlong, L. Hui, W. Ying, Z. Shuyuan, and Q. Yitai, Magnetic Fe3O4 nanodisc synthesis on a large scale via, Nanotechnology, 16 (9), 1584-8, 2005.

Guigue-Millot, N., N. Keller, and P. Perriat, Evidence for the Verwey transition in highly nonstoichiometric nanometric Fe-based ferrites, Physical Review B, 64 (1), 012402, 2001.

Guillemet-Fritsch, S., A. Navrotsky, P. Tailhades, H. Coradin, and M. Wang, Thermochemistry of iron manganese oxide spinels, J. Solid State Chem, 178 (1), 106-113, 2005.

Guillou, H., J.C. Carracedo, R. Paris, and F.J.P. Torrado, Implications for the early shield-stage evolution of Tenerife from K/Ar ages and magnetic stratigraphy, Earth Planet. Sci. Lett., 222 (2), 599-614, 2004.

Guillou, H., B.S. Singer, C. Laj, C. Kissel, S. Scaillet, and B.R. Jicha, On the age of the Laschamp geomagnetic excursion, Earth Planet. Sci. Lett, 227 (3-4), 331-343, 2004.

Gundiah, G., N.S. John, P.J. Thomas, G.U. Kulkarni, C.N.R. Rao, and S. Heun, Dip-pen nanolithography with magnetic Fe2O3 nanocrystals, Appl. Phys. Lett., 84 (26), 5341-3, 2004.

Gun'ko, Y.K., S.C. Pillai, and D. McInerney, Magnetic nanoparticles and nanoparticle assemblies from metallorganic precursors, Journal of Materials Science: Materials in Electronics, 12 (4), 299-302, 2001.

Gunn, N.M., and A.S. Murray, Geomagnetic field magnitude variations in Peru derived from archaeological ceramics dated by thermoluminescence, Geophys. J. R. Astr. Soc., 62, 345–366, 1980.

Gunnlaugsson, H.P., Analysis of the magnetic properties experiment data on Mars: results from Mars Pathfinder, Planet Space Sci., 48 (15), 1491-504, 2000.

Gunther, A., H.G. Brokmeier, E. Petrovsky, H. Siemes, K. Helming, and H. Quade, Mineral preferred orientation and magnetic properties as indicators of varying strain conditions in naturally deformed iron ore, Applied Physics A, a74, S1080-2, 2002.

Gunther, W., Stress annealing process suitable for the production of low permeable nanocrystalline tape wound cores, Journal of Magnetism & Magnetic Materials, 290 (Part 2 Special Issue SI), 1483-1486, 2005.

Guo, B., R.X. Zhu, A.P. Roberts, and F. Florindo, Lack of correlation between paleoprecipitation and magnetic susceptibility of Chinese loess/paleosol sequences, Geophys. Res. Lett., 28 (22), 4259-62, 2001.

Guo, Z.T., S.Z. Peng, Q.Z. Hao, P.E. Biscaye, Z.S. An, and T.S. Liu, Late Miocene-Pliocene development of Asian aridification as recorded in the Red-Earth Formation in northern China, Glob. Planet. Change, 41 (3-4), 135-145, 2004.

Gupta, A.K., Recent advances in high-Tc SQUIDs, Indian J. Pure Appl. Phys., 32, 531–540, 1994.

Gupta, A.K., and N. Khare, Advances in high-Tc RF-SQUIDs, Indian J. Pure Appl. Phys., 30, 652–665, 1992.

Gupta, R., K.H. Han, K.P. Lieb, G.A. Muller, P. Schaaf, and K. Zhang, Influence of ion implantation on the magnetic properties of thin FeCo films - art. no. 073911, J. Appl. Phys., 97 (7), 73911, 2005.

Gupta, R., A.K. Sood, P. Metcalf, and J.M. Honig, Raman study of stoichiometric and Zn-doped Fe3O4, Physical Review B, 65 (10), 104430/1-8, 2002.

Gurary, G.Z., V.I. Bagin, A.V. Garbuzenko, K. Nazarov, and V.M. Trubikhin, Steady-state geomagnetic field of the Matuyama chron and Jaramillo subchron, western Turkmenistan, Izvestiya, Physics of the Solid Earth, 36 (1), 29-44, 2000.


Kataloq: referencelist

Yüklə 1,71 Mb.

Dostları ilə paylaş:
1   ...   18   19   20   21   22   23   24   25   ...   50




Verilənlər bazası müəlliflik hüququ ilə müdafiə olunur ©muhaz.org 2020
rəhbərliyinə müraciət

    Ana səhifə