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Journal of Geophysical Research: Solid Earth(3)
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scopus(9)
Analysis of an Updated Paleointensity Database (Q<inf>PI</inf>-PINT) for 65–200 Ma: Implications for the Long-Term History of Dipole Moment Through the Mesozoic
ArticleAbstract: The global paleointensity database for 65–200 Ma was analyzed using a modified suite of paleointensiPalabras claves:dipole moment variation, geodynamo, geomagnetic field reversal, superchronAutores:Biggin A.J., Doubrovine P.V., E. J. Piispa, Fairchild L., Hawkins L., Kulakov E.V., Paterson G., Smirnov A.V., Sprain C.Fuentes:scopusNonheating methods for absolute paleointensity determination: Comparison and calibration using synthetic and natural magnetite-bearing samples
ArticleAbstract: Nonheating paleointensity methods utilize an anhysteretic remanent magnetization (ARM) or a saturatiPalabras claves:ARM method, Geomagnetism, paleointensity, paleomagnetism, pseudo-Thellier method, REM methodAutores:E. J. Piispa, Lerner G.A., Smirnov A.V., Surovitckii L.Fuentes:scopusPalaeomagnetic field intensity variations suggest Mesoproterozoic inner-core nucleation
ArticleAbstract: The Earth's inner core grows by the freezing of liquid iron at its surface. The point in history atPalabras claves:Autores:Biggin A.J., E. J. Piispa, Holme R., Paterson G., Pesonen L.J., Tauxe L., Veikkolainen T.Fuentes:scopusPaleomagnetism and Geochemistry of ~1144-Ma Lamprophyre Dikes, Northwestern Ontario: Implications for the North American Polar Wander and Plate Velocities
ArticleAbstract: We present new paleomagnetic and geochemical data from a suite of the ~1144-Ma ultramafic lamprophyrPalabras claves:geochemistry, lamprophyres, Logan Loop, Midcontinent Rift, paleomagnetismAutores:E. J. Piispa, Mitchell R.H., Pesonen L.J., Smirnov A.V.Fuentes:scopusPaleoproterozoic mafic dyke swarms from the Dharwar craton; paleomagnetic poles for India from 2.37 to 1.88Ga and rethinking the Columbia supercontinent
ArticleAbstract: Here we report new paleomagnetic and geochronologic results from the Dharwar craton (south India) frPalabras claves:Autores:Belica M.E., Celestino M., E. J. Piispa, Kamenov G.D., Meert J.G., Pandit M.K., Pesonen L.J., Plado J.Fuentes:scopusLatitude Dependence of Geomagnetic Paleosecular Variation and its Relation to the Frequency of Magnetic Reversals: Observations From the Cretaceous and Jurassic
ArticleAbstract: Nearly three decades ago paleomagnetists suggested that there existed a clear link between latitudePalabras claves:Cretaceous, geodynamo, geomagnetic reversal frequency, Jurassic, paleosecular variation, Robust statisticsAutores:Biggin A.J., Doubrovine P.V., E. J. Piispa, Kulakov E.V., Ots S., Pesonen L.J., Smirnov A.V., Veikkolainen T.Fuentes:scopusUsing paleomagnetism to test rolling hinge behaviour of an active continental low angle normal fault, Papua New Guinea
ArticleAbstract: Metamorphic core complexes (MCCs) have been attributed to slip on long-lived detachment faults in exPalabras claves:continental extension, detachment faults, metamorphic core complex, paleomagnetism, rolling hinge, Woodlark RiftAutores:E. J. Piispa, Little T.A., Turner G.M., Watson E.J.Fuentes:scopusRecognizing long-runout pyroclastic flow deposits using paleomagnetism of ash
ArticleAbstract: Quantifying the spread of > 600 °C pyroclastic flows (more broadly termed pyroclastic density currenPalabras claves:Autores:Cronin S., E. J. Piispa, Lerner G.A., Turner G.M.Fuentes:scopusRevisiting the paleomagnetism of the Neoarchean Uauá mafic dyke swarm, Brazil: Implications for Archean supercratons
ArticleAbstract: The original connections of Archean cratons are becoming traceable due to an increasing amount of paPalabras claves:Neoarchean reconstruction, paleomagnetism, São Francisco craton, Uauá blockAutores:E. J. Piispa, Oliveira E.P., Salminen J.M., Smirnov A.V., Trindade R.I.F.Fuentes:scopus