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



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Enpuku, K., K. Inoue, K. Soejima, K. Yoshinaga, H. Kuma, and N. Hamasaki, Magnetic immunoassays utilizing magnetic markers and a high-Tc SQUID, IEEE Trans. Appl. Supercond., 15 (2), 660-3, 2005.

Enpuku, K., and T. Minotani, Biological immunoassay with high Tc superconducting quantum interference device (SQUID) magnetometer, IEICE Transactions on Electronics, E84-C (1), 43-8, 2001.

Enpuku, K., and T. Minotani, Detection of magnetic field from small samples with high Tc SQUID and its application, Singapore Journal of Physics, 15 (1), 115-21, 1999.

Enpuku, K., T. Minotani, T. Gima, Y. Kuroki, Y. Itoh, M. Yamashita, Y. Katakura, and S. Kuhara, Detection of magnetic nanoparticles with superconducting quantum interference device (SQUID) magnetometer and application to immunoassays, Japanese Journal of Applied Physics, Part 2, 38 (10A), L1102-5, 1999.

Enpuku, K., A. Ohba, K. Inoue, and Y. Tong Qing, Application of HTS SQUIDS to biological immunoassays.

Enpuku, K., A. Ohba, K. Inoue, and T.Q. Yang, Application of HTS SQUIDs to biological immunoassays, Physica C, 412-14 (Part 2), 1473-1479, 2004.

Entel, P., G. Rollmann, and V.A. Moskalenko, Structure, magnetism, and Coulomb correlations: From bulk systems to nanoclusters, Physics of Particles & Nuclei, 36 (Suppl 1), S41-S46, 2005.

Eppelbaum, L., Z. Ben-Avraham, and Y. Katz, Integrated analysis of magnetic, paleomagnetic and K-Ar data in a tectonic complex region: An example from the Sea of Galilee - art. no. L19602, Geophys. Res. Lett., 31 (19), 19602, 2004.

Eppelbaum, L., Z. Ben-Avraham, and Y. Katz, Integrated analysis of magnetic, paleomagnetic and K-Ar data in a tectonic complex region: an example from the Sea of Galilee

me was developed the detailed magnetic-paleomagnetic scheme with K-Ar dating unmasking structure of magnetic anomalies in the sea and coordinating the revealed peculiarities with the surrounding anomalies, Geophys. Res. Lett., 31 (19), 0094-8276, 2004.

Epstein, A.G., J.B. Epstein, and L.D. Harris, Conodont color alteration—an index to organic metamorphism, U. S. Geol. Surv. Prof. Paper, 995, 1–27, 1977.

Erdem, M., and A. Ozverdi, Lead adsorption from aqueous solution onto siderite, Sep. Purif. Technol, 42 (3), 259-264, 2005.

Erdtmann, B.D., The earliest Ordovician nematophorid graptolites - Taxonomy and correlation, Geol. Mag., 125 (4), 327, 1988.

Ericson, D.B., and G. Wollin, Pleistocene, climates and chronology in deep-sea sediments, Science, 162, 1227-1234, 1968.

Ermushev, A.V., A.A. Ruzmaikin, and D.D. Sokolov, Fractal character of the sequence of geomagnetic field reversals, Magnetohydrodyn. (transl. of Magnit. Gidrodin.), 28, 8–12 (326–330 in original), 1992.

Ernesto, M., M.I.B. Raposo, L.S. Marques, P.R. Renne, L.A. Diogo, and A. de Min, Paleomagnetism, geochemistry and 40Ar/39Ar dating of the North eastern Parana Magmatic Province: Tectonic implications, J. Geodyn., 28 (4-5), 321-40, 1999.

Erni, R., N.D. Browning, Z.R. Dai, and J.P. Bradley, Analysis of extraterrestrial particles using monochromated electron energy-loss spectroscopy, Micron, 36 (4), 369-379, 2005.

Ernst, R.E., and W.R.A. Baragar, Evidence from magnetic fabric for the flow pattern of magma in the Mackenzie giant radiating dyke swarm, Nature, 356, 511–513, 1992.

Ershov, A.N., V.S. Vechfinsky, D.A. Larionov, A.A. Bubnov, and V.A. Tsel'movich, Stress effect on the induced magnetic anisotropy of rocks, Izvestiya, Physics of the Solid Earth, 35 (4, p.324), 75-80, 1999.

Ertl, A., F. Pertlik, M. Prem, J.E. Post, S.J. Kim, F. Brandstatter, and R. Schuster, Rancieite crystals from Friesach, Carinthia, Austria, Eur. J. Mineral., 17 (1), 163-172, 2005.

Erwin, D.H., Permian gastropoda of the southwestern United-States - Cerithiacea, Acteonacea, and Pyramidellacea, Journal Of Paleontology, 62 (4), 566, 1988.

Eschenko, L.S., and V.A. Salonikov, Preparation of alpha-Fe2O3 by thermal hydrolysis of iron(III) basic sulfate, Russ. J. Appl. Chem, 77 (9), 1404-1408, 2004.

Escobar, G.P., A.Q. Beroy, M.P.P. Iritia, and J.H. Huerta, Kinetic study of the combustion of methyl-ethyl ketone over alpha-hematite catalyst, Chem. Eng. J, 102 (2), 107-117, 2004.

Escoubet, S., S. Gastaldi, V.I. Timokhin, M.P. Bertrand, and D. Siri, Thiyl radical-mediated cleavage of allylic C-N bonds: Scope, limitations, and theoretical support to the mechanism, J. Am. Chem. Soc, 126 (39), 12343-12352, 2004.

Espie, G., A. Denoirjean, P. Fauchais, J.C. Labbe, J. Dubsky, O. Schneeweiss, and K. Volenik, In-flight oxidation of iron particles sprayed using gas and water stabilized plasma torch, Surface & Coatings Technology, 195 (1), 17-28, 2005.

Espin, M.J., A.V. Delgado, and J. Plocharski, Quasi-static electrorheological properties of hematite/silicone oil suspensions under DC electric fields, Langmuir, 21 (11), 4896-4903, 2005.

Espina-Hernandez, J.H., and R. Grossinger, A pulse field magnetometer for local magnetization measurements, J. Alloys Compounds, 8388 (2004), 0925-8388, 2004.

Esquivel, E.V., L.E. Murr, M.I. Lopez, and P.C. Goodell, TEM observations of a 30 million year old mountain leather nanofiber mineral composite, Mater. Charact, 54 (4-5), 458-465, 2005.

Estevez Rams, E., R. Martinez Garcia, E. Reguera, H. Montiel Sanchez, and H.Y. Madeira, Structural transformation with milling on sol-gel precursor for BaM hexaferrite, Journal of Physics D, 33 (21), 2708-15, 2000.

Euliss, L.E., S.G. Grancharov, S. O'Brien, T.J. Deming, G.D. Stucky, C.B. Murray, and G.A. Held, Cooperative assembly of magnetic nanoparticles and block copolypeptides in aqueous media, Nano Lett, 3 (11), 1489-93, 2003.

Eun Hee, K., L. Hyo Sook, and S. Huiping, Preparation of nanostructured metal ferrite particles by sonochemistry.

Evans, D.A., N.J. Beukes, and J.L. Kirschvink, Low-latitude glaciation in the Palaeoproterozoic era, Nature, 386 (6622), 262-266, 1997.

Evans, D.A., A.Y. Zhuravlev, C.J. Budney, and J.L. Kirschvink, Palaeomagnetism of the Bayan Gol Formation, western Mongolia, Geol. Mag., 133 (4), 487-496, 1996.

Evans, D.A.D., Stratigraphic, geochronological, and paleomagnetic constraints upon the Neoproterozoic climatic paradox, Am. J. Sci., 300 (5), 347-433, 2000.

Evans, D.A.D., N.J. Beukes, and J.L. Kirschvink, Paleomagnetism of a lateritic paleoweathering horizon and overlying Paleoproterozoic red beds from South Africa: Implications for the Kaapvaal apparent polar wander path and a confirmation of atmospheric oxygen enrichment, J. Geophys. Res., 107 (B12), 1-22, 2002.

Evans, D.A.D., J. Gutzmer, N.J. Beukes, and J.L. Kirschvink, Paleomagnetic constraints on ages of mineralization in the Kalahari Manganese Field, South Africa, Econ. Geol., 96 (3), 621-631, 2001.

Evans, D.A.D., M.T.D. Wingate, Z.X. Li, and J.L. Kirschvink, A high-quality mid-Neoproterozoic paleomagnetic pole from South China, with implications for ice ages and the breakup configuration of Rodinia, Precambr. Res., 100 (1-3), 313-334, 2000.

Evans, H.F., and J.E.T. Channell, Upper Miocene magnetic stratigraphy at ODP site 1092 (sub-Antarctic South Atlantic): recognition of 'cryptochrons' in C5n.2n, Geophys. J. Int., 153 (2), 483-96, 2003.

Evans, H.F., T. Westerhold, and J.E.T. Channell, ODP Site 1092: revised composite depth section has implications for Upper Miocene 'cryptochrons', Geophys. J. Int., 156 (2), 195-9, 2004.

Evans, M.A., and R.D. Elmore, Fluid control of localized mineral domains in limestone pressure solution structures, J. Struct. Geol., 28 (2), 284-301, 2006.

Evans, M.A., M.T. Lewchuk, and R.D. Elmore, Strain partitioning of deformation mechanisms in limestones: examining the relationship of strain and anisotropy of magnetic susceptibility (AMS), J. Struct. Geol., 25 (9), 1525-1549, 2003.

Evans, M.E., Magnetoclimatology: a test of the wind-vigour model using the 1980 Mount St. Helens ash, Earth Planet. Sci. Lett., 172 (3), 255-9, 1999.

Evans, M.E., Magnetoclimatology of aeolian sediments, Geophys. J. Int., 144 (2), 495-7, 2001.

Evans, M.E., Testing the geomagnetic dipole hypothesis: palaeolatitudes sampled by large continents, Geophys. J. Int., 161 (2), 266-267, 2005.

Evans, M.E., Single domain oxide particles as a source of thermoremanent magnetization, J. Geomagn. Geoelectr., 29, 267–275, 1977.

Evans, M.E., Nanophase magnetism and past global change, Journal of Physics: Conference Series, 17 (1), 150-3, 2005.

Evans, M.E., Test of the dipolar nature of the geomagnetic field throughout Phanerozoic time, Nature, 262, 676–677, 1976.

Evans, M.E., Edmond Halley, Geophysicist, Phys. Today, 1988.

Evans, M.E., Z. Ding, and N.W. Rutter, A high-resolution magnetic susceptibility study of a loess/paleosol couplet at Baoji, China, Stud. Geophys. Geod., 40, 225-233, 1996.

Evans, M.E., and F. Heller, Environmental Magnetism: Principles and Applications of Environmagnetics, Academic Press, Elsevier Science, Amsterdam, 2003.

Evans, M.E., and F. Heller, Magnetism of loess/paleosol sequences: recent developments, Earth-Science Reviews, 54, 129-144, 2001.

Evans, M.E., and F. Heller, Magnetic enhancement and palaeoclimate: study of a loess/palaeosol couplet across the loess plateau of China, Geophys. J. Int., 117, 257–264, 1994.

Evans, M.E., and G.S. Hoye, Archaeomagnetic results from southern Italy and their bearing on geomagnetic secular variation, Phys. Earth Planet. Inter., 151, 1-2, 2005.

Evans, M.E., and M.W. McElhinny, Single domain magnetite and high coercivities in a gabbroic intrusion, Earth Planet. Sci. Lett., 4, 142–146, 1968.

Evans, M.E., and C.D. Rokosh, Quaternary International, The last interglacial in the Chinese Loess Plateau: A petromagnetic investigation of samples from a north-south transect, Quaternary International, 68-71, 77-82, 2000.

Evans, M.E., C.D. Rokosh, and N.W. Rutter, Magnetoclimatology and paleoprecipitation: Evidence from a north-south transect through the Chinese Loess Plateau, Geophys. Res. Lett., 29 (8), 127-1-4, 2002.

Evans, M.E., and M.L. Wayman, The mid-Atlantic ridge near 45°N; XIX: an electron microscope investigation of the magnetic minerals in basalt samples, Can. J. Earth Sci., 9, 671–678, 1972.

Evans, M.E., and M.L. Wayman, Electron microscopy of small magnetic particles in geonomy, Phys. Earth Planet. Inter., 103, 343-348, 1997.

Everitt, C.W.F., Thermoremanent magnetization II: experiments on multidomain grains, Phil. Mag., 7, 583–597, 1962.

Everitt, C.W.F., Thermoremanent magnetization III: Theory of multidomain grains, Phil. Mag., 7, 599–616, 1962.

Everitt, C.W.F., and J.A. Clegg, A field test of paleomagnetism stability, Geophys. J. R. Astr. Soc., 6, 312–319, 1962.

Ewing, J.A., Experimental researches in magnetism, Phil. Trans. Roy. Soc. London A, 176, 523–640, 1885.

Eymin, C., and G. Hulot, On core surface flows inferred from satellite magnetic data, Physics of the Earth & Planetary Interiors, 152 (3), 200-220, 2005.

Eyre, J.K., The application of high resolution IRM acquisition to the discrimination of remanence carriers in Chinese loess, Stud. Geophys. Geod., 40, 234-242, 1996.

Eyre, J.K., and D.P.E. Dickson, Mössbauer spectroscopy analysis of iron-bearing minerals in the Chinese loess, J. Geophys. Res. B, 100, 17,925-17,930, 1995.

Eyre, J.K., and J. Shaw, Magnetic enhancement of Chinese loess—the role of -Fe2O3?, Geophys. J. Int., 117, 265–271, 1994.

Fabian, K., A theoretical treatment of paleointensity determination experiments on rocks containing pseudo-single or multi domain magnetic particles, Earth Planet. Sci. Lett., 188 (1), 45-58, 2001.

Fabian, K., Some additional parameters to estimate domain state from isothermal magnetization measurements, Earth Planet. Sci. Lett., 213 (3-4), 337-45, 2003.

Fabian, K., Acquisition of thermoremanent magnetization in weak magnetic fields, Geophys. J. Int., 142 (2), 478-86, 2000.

Fabian, K., Approach to saturation analysis of hysteresis measurements in rock magnetism and evidence for stress dominated magnetic anisotropy in young mid-ocean ridge basalt, Phys. Earth Planet. Inter., 154, 299–307, 2006.

Fabian, K., and F. Heider, How to include magnetostriction in micromagnetic models of titanomagnetic grains, Geophys. Res. Lett., 23 (20), 2839-2842, 1996.

Fabian, K., and A. Hubert, Shape-induced pseudo-single-domain remanence, Geophys. J. Int., 138 (3), 717-26, 1999.

Fabian, K., and A. Hubert, Shaped induces psedo-single domain remanence, Geophys. J. Int., 138, 717-726, 1999.

Fabian, K., R. Ivanics, M. Terenyi, and L. Egyed, Detection of bovine herpesvirus 4 in CD11b+ leukocytes of experimentally infected rabbits, Acta Vet. Hung, 53 (2), 265-273, 2005.

Fabian, K., A. Kirchner, W. Williams, F. Heider, T. Leibl, and A. Huber, Three-dimensional micromagnetic calculations for magnetite using FFT, Geophys. J. Int., 124, 89-104, 1996.

Fabian, K., and V.P. Shcherbakov, Domain state stabilization by iterated thermal magnetization processes, Geophys. J. Int., 159 (2), 486-494, 2004.

Fabian, K., and T. von Dobeneck, Isothermal magnetization of samples with stable Preisach function: a survey of hysteresis, remanence, and rock magnetic parameters, J. Geophys. Res., 102 (B8), 17659-77, 1997.

Fabris, J.D., J.M.D. Coey, and W.d. Mussel, Magnetic soils from mafic lithodomains in Brazil, Hyperfine Interact., 113 (1-4), 249-58, 1998.

Fabris, J.D., M.F. de Jesus Filho, J.M.D. Coey, W.d. Mussel, and A.T. Goulart, Iron-rich spinels from Brazilian soils, Hyperfine Interact., 110 (1-2), 23-32, 1997.

Fabris, J.D., W.d. Mussel, J.M.D. Coey, M.F. de Jesus Filho, and A.T. Goulart, Mg-rich iron oxide spinels from tuffite, Hyperfine Interact., 110 (1-2), 33-40, 1997.

Fabry, B., G.N. Maksym, R.D. Hubmayr, J.P. Butler, and J.J. Fredberg, Implications of heterogeneous bead behavior on cell mechanical properties measured with magnetic twisting cytometry, J. Magn. Magn. Mater., 194 (1-3), 120-5, 1999.

Facer, R.A., Folding, strain, and Graham’s fold test in paleomagnetic investigations, Geophys. J. R. Astr. Soc., 72, 165–171, 1983.

Facey, D., J. Housden, and W. O’Reilly, A magneto-petrological study of rocks from leg 83, hole 504B, Deep Sea Drilling Project, in Init. Repts. DSDP, edited by R.N. Anderson, J. Honnorez, and K. Becker, pp. 289–295, U. S. Government Printing Office, Washington, 1985.

Faggion, O., E. Pinna, C. Savelli, and A.A. Schreider, Geomagnetism and age study of Tyrrhenian seamounts, Geophys. J. Int., 123, 915-930, 1995.

Fahnle, M., H. Kronmuller, and F. Walz, Time-scales of electronic processes in Fe3O4-An attempt to resolve a recently accentuated controversy, Physica B, 369, 1-4, 2005.

Fairbridge, R.W., Global climate change during the 13,500-b.p. Gothenburg geomagnetic excursion, Nature, 268, 430–431, 1977.

Fairbridge, R.W., and C. Hillaire-Marcel, An 8000-year palaeoclimatic record of the ‘double-hale’ 45-year solar cycle, Nature, 268, 413–416, 1977.

Fairen, A.G., J.M. Dohm, E.R. Uceda, A.P. Rodriguez, V.R. Baker, D. Fernandez-Remolar, D. Schulze-Makuch, and R. Amils, Prime candidate sites for astrobiological exploration through the hydrogeological history of Mars, Planetary & Space Science, 53 (13), 1355-1375, 2005.

Faivre, D., P. Agrinier, N. Menguy, P. Zuddas, K. Pachana, A. Gloter, J.Y. Laval, and F. Guyot, Mineralogical and isotopic properties of inorganic nanocrystalline magnetites, Geochim. Cosmochim. Acta, 68 (21), 4395-4403, 2004.

Fajardo, M., G.A.P. Alcazar, A.M. Moreira, and N.L. Speziali, Mossbauer and XRD comparative study of host rock and iron rich mineral samples from Paz del Rio iron ore mineral mine in Colombia, Hyperfine Interact., 156 (1), 395-402, 2004.

Fan, H.L., B.Z. Song, J.H. Liu, Z.Q. Yang, and Q.X. Li, Thermal formation mechanism and size control of spherical hematite nanoparticles, Mater. Chem. Phys, 89 (2-3), 321-325, 2005.

Fan, H.L., B.Z. Song, Z.Q. Yang, and Q.X. Li, Induced nucleation of haematite nanoparticles with superparamagnetic properties, Nanotechnology, 16 (8), 1100-1104, 2005.

Fan, R., X.H. Chen, Z. Gui, L. Liu, and Z.Y. Chen, A new simple hydrothermal preparation of nanocrystalline magnetite Fe3O4, Mater. Res. Bull, 36 (3), 497-502, 2001.

Fang, B., G.F. Wang, W.Z. Zhang, M.G. Li, and X.W. Kan, Fabrication of Fe3O4 nanoparticles modified electrode and its application for voltammetric sensing of dopamine, Electroanalysis, 17 (9), 744-748, 2005.

Fang, D., Z. Shen, and X. Tan, Evidence for Himalayan remagnetization in Tarim Basin, Chin. Sci. Bull., 47 (8), 624-31, 2002.

Fang, D.N., X. Feng, and K.C. Hwang, Study of magnetomechanical non-linear deformation of ferromagnetic materials: theory and experiment, Proc. Inst. Mech. Eng. Part C-J. Eng. Mech. Eng. Sci, 218 (12), 1405-1410, 2004.

Fang, Q., Y. Liu, P. Yin, and X. Li, Magnetic properties and formation of Sr ferrite nanoparticle and Zn, Ti/Ir substituted phases, J. Magn. Magn. Mater., 234 (3), 366-70, 2001.

Fang, Q.Q., Y.F. Jiao, R. Li, J.Z. Wang, and H. Cheng, Studies on structure and magnetic properties of uniaxial M-type SrFe12-xCrxO19 hexaferrite nano-crystalline, Acta Phys. Sin, 54 (4), 1826-1830, 2005.

Fang, Q.-Q., W. Zhong, and Y.-W. Du, New modified m-type ferrite nanoparticles with spinel phase epitaxial overlayer, Chin. Phys. Lett, 16 (4), 285-7, 1999.

Fang, W., R. Van der Voo, and Q. Liang, Ordovician paleomagnetism of eastern Yunnan, China, Geophys. Res. Lett., 17, 953–956, 1990.

Fang, W.-X., Z.-H. He, X.-Q. Xu, and H. Shen, Aligned structures of Fe3O4 nanoparticles in a curable polymer carrier induced by a magnetic field, Chin. Phys. Lett, 22 (9), 2386-9, 2005.

Fang, X., C. Garzione, R. Van der Voo, J. Li, and M. Fan, Flexural subsidence by 29 Ma on the NE edge of Tibet from the magnetostratigraphy of Linxia Basin, China, Earth Planet. Sci. Lett., 210, 3-4, 2003.

Fang, X.M., C. Garzione, R. Van der Voo, J.J. Li, and M.J. Fan, Flexural subsidence by 29 Ma on the NE edge of Tibet from the magnetostratigraphy of Linxia Basin, China, Earth Planet. Sci. Lett, 210 (3-4), 545-560, 2003.

Fang, X.-M., L. Ji-Jun, S.K. Banerjee, M. Jackson, E.A. Oches, and R. Van der Voo, Millenial-scale climatic change during the last interglacial period: superparamagnetic sediment proxy from paleosol S1, western Chinese Loess Plateau, Geophys. Res. Lett., 26 (16), 2485-2488, 1999.

Fang, X.-M., J.-J. Li, S.K. Banerjee, M.J. Jackson, E.A. Oches, and R. Van der Voo, Millennial-scale climatic change during the last interglacial period: Superparamagnetic sediment proxy from paleosol S1, western Chinese Loess Plateau, Geophys. Res. Lett., 26 (16), 2485-2488, 1999.

Fang, X.-M., J.-J. Li, and R. Van der Voo, Rock magnetic and grain size evidence for intensified Asian atmospheric circulation since 800,000 years B.P. related to Tibetan uplift, Earth Planet. Sci. Lett., 165 (1), 129-44, 1999.

Fang, X.-M., J.-J. Li, R. van der Voo, C.M. Niocaill, X.-R. Dai, R.A. Kemp, E. Derbyshire, J.-X. Cao, J.-M. Wang, and G. Wang, A record of the Blake Event during the last interglacial paleosol in the western Loess Plateau of China, Earth Planet. Sci. Lett., 146 (1-2), 73-82, 1997.

Fang, X.M., M.D. Yan, R. Van der Voo, D.K. Rea, C.H. Song, J.M. Pares, J.P. Gao, J.S. Nie, and S. Dai, Late Cenozoic deformation and uplift of the NE Tibetan plateau: Evidence from high-resolution magneto stratigraphy of the Guide Basin, Qinghai Province, China, Geol. Soc. Am. Bull., 117 (9-10), 1208-1225, 2005.

Fang, X.M., Z.J. Zhao, J.J. Li, M.D. Yan, B.T. Pan, C.H. Song, and S.A. Dai, Magnetostratigraphy of the late Cenozoic Laojunmiao anticline in the northern Qilian Mountains and its implications for the northern Tibetan Plateau uplift, Sci. China Ser. D-Earth Sci, 48 (7), 1040-1051, 2005.

Fangxin, L., L. Tongzhong, and Z. Huagui, Structure and magnetic properties of SnFe2O4 nanoparticles, Physics Letters A, 323, 3-4, 2004.

Fannin, P.C., and S.W. Charles, An experimental study of the step-response function of ferrofluids as a function of particle volume fraction, Journal of Magnetism and Magnetic Material, 136, 287–293, 1994.

Fannin, P.C., L. Kinsella, and S.W. Charles, Wide-band complex magnetic susceptibility measurements of magnetic fluids as a function of temperature, J. Magn. Magn. Mater., 8853 (99), 0304-8853, 1999.

Fannin, P.C., L. Kinsella, and S.W. Charles, On the influence of a uniform magnetic field on the Neel relaxation of a colloidal suspension of nanometre-sized particles, Journal of Physics D, 30 (16), 2292-7, 1997.

Fannin, P.C., P.A. Perov, and S.W. Charles, Complex susceptibility measurements of magnetic fluids over the frequency range 50 MHz to 18 GHz, Journal of Physics D, 32 (14), 1583-6, 1999.

Fannin, P.C., B.K.P. Scaife, and S.W. Charles, An experimental study of the magnetic susceptibility of colloidal suspensions of magnetite as a function of particle volume fraction, J. Phys. D, 23, 1711–1714, 1990.

Fannin, P.C., B.K.P. Scaife, and S.W. Charles, Measurements of the AC and zero-frequency susceptibility of colloidal suspensions of magnetite as a function of frequency and particle volume fraction, Magnetohydrodyn. (transl. of Magnit. Gidrodin.), 27, 50–54 (58–61 in original), 1991.

Fannin, P.C., B.K.P. Scaife, and A.T. Giannitsis, Determination of the radius of nano-particles in a magnetic fluid by means of a constant frequency measurement technique, Journal of Physics D, 35 (12), 1305-10, 2002.

Fannin, P.C., D. Vincent, and G. Noyel, On the measurement of the complex susceptibility and permittivity of magnetic fluids by means of two different measurement techniques, J. Magn. Magn. Mater., 8853 (99), 0304-8853, 1999.

Fanselau, G., Die Erzeugung von homogenen Magnetfeldern durch Rechteckströme, Abhandlungen des Geomagnetischen Instituts und Observatoriums Potsdam-Niemegk, 19, 5-26, 1956.

Fard, A.M., Recognition of abrupt climate changes in clastic sedimentary environments: an introduction, Global Planet. Change, 28, ix-xii, 2001.

Farges, F., Y. Lefrere, S. Rossano, A. Berthereau, G. Calas, and G.E. Brown, The effect of redox state on the local structural environment of iron in silicate glasses: a molecular dynamics, combined XAFS spectroscopy, and bond valence study, J. Non-Cryst. Solids, 344 (3), 176-188, 2004.


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