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Saioa A. Campuzano


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ISI Journal articles:
[42] Bonilla‐Alba, R., M. Gómez‐Paccard, F.J. Pavón‐Carrasco, S.A. Campuzano, E. Beamud, V. Martínez‐Ferreras, J.M. Gurt‐Esparraguera, E. Ariño‐Gil, F. Martín‐Hernández, M.L. Osete (2024). First full‐vector archeomagnetic data from Central Asia (3 BCE to 15 CE centuries): Evidence for a large non‐dipole field contribution around the first century BCE. Journal of Geophysical Research: Solid Earth 129 (2), e2023JB027910.

[41] Puente-Borque, M.; Pavón-Carrasco, F.J.; Núñez, A.; Tordesillas, J.M.; Campuzano, S.A. (2023). Regional geomagnetic core field and secular variation model over the Iberian Peninsula from 2014 to 2020 based on the R-SCHA technique. Earth, Planets and Space, 75, 128. https://doi.org/10.1186/s40623-023-01873-w.

[40] D. Sabbagh, A. Ippolito, D. Marchetti, L. Perrone, A. De Santis, S. A. Campuzano, G. Cianchini, A. Piscini (2023) Satellite-based electron density background definition at mid-latitudes and comparison with IRI-2016 model under different solar conditions. Adv. Space Res. DOI: 10.1016/j.asr.2023.05.029.

[39] S. A. Campuzano, F. Delgado-Gómez, Y. Migoya-Orué, G. Rodríguez-Caderot, M. Herraiz-Sarachaga, S.M. Radicella (2023) Study of Ionosphere Irregularities over the Iberian Peninsula during Two Moderate Geomagnetic Storms Using GNSS and Ionosonde Observations. Atmosphere. 14, 233. DOI: 10.3390/atmos14020233.

[38] A. De Santis, L. Perrone, M. Calcara, S. A. Campuzano, G. Cianchini, S. D’Arcangelo, D. Di Mauro, D. Marchetti, A. Nardi, M. Orlando, A. Piscini, D. Sabbagh, M. Soldani (2022) A Comprehensive Multiparametric and Multilayer Approach to Study the Preparation Phase of Large Earthquakes from Ground to Space: The Case Study of the June 15 2019, M7.2 Kermadec Islands (New Zealand) Earthquake. Remote Sens. Environ. 283, 113325. DOI: 10.1016/j.rse.2022.113325.

[37] C. Caricchi, S. A. Campuzano, L. Sagnotti, P. Macrì, R. G. Lucchi (2022) Reconstruction of the Virtual Geomagnetic Pole (VGP) path at high latitude for the last 22 kyr: The role of radial field flux patches as VGP attractor. Earth Planet. Sc. Lett. 595, 117762. DOI: 10.1016/j.epsl.2022.117762.

[36] S. D’Arcangelo, A. Bonforte, A. De Santis, S. R. Maugeri, L. Perrone, M. Soldani, G. Arena, F. Brogi, M. Calcara, S. A. Campuzano, G. Cianchini, A. Del Corpo, D. Di Mauro, C. Fidani, A. Ippolito, S. Lepidi, D. Marchetti, A. Nardi, M. Orlando, A. Piscini, M. Regi, D. Sabbagh, Z. Zhima, R. Yan (2022) A Multi-Parametric and Multi-Layer Study to Investigate the Largest 2022 Hunga Tonga-Hunga Ha’apai Eruptions. Remote Sensing. 14, 3649. DOI: 10.3390/rs14153649.

[35] D. Marchetti, A. De Santis, S. A. Campuzano, K. Zhu, M. Soldani, S. D’Arcangelo, M. Orlando, T. Wang, G. Cianchini, D. Di Mauro, A. Ippolito, A. Nardi, D. Sabbagh, W. Chen, X. He, X. Shen, J. Wen, D. Zhang, H. Zhang, Y. Zhang, Z. Zeren (2022) Worldwide Statistical Correlation of Eight Years of Swarm Satellite Data with M5.5+ Earthquakes: New Hints about the Preseismic Phenomena from Space. Remote Sensing. 14(11), 2649. DOI: 10.3390/rs14112649.

[34] J. C. Sastre Blanco, D. Sánchez Nicolás, I. Espí Pérez, A. Molina-Cardín, S. A. Campuzano, A. Palencia-Ortas, G. McIntosh, M. L. Osete (2022) La ocupación durante la Segunda Edad del Hierro del povoado de Crestelos (Meirinhos, Mogadouro, Portugal). Estructuras de combustión y reocupación del Foso 1 como zona productiva. Complutum. 33(1), 159-176. DOI: 10.5209/cmpl.80890.

[33] V. Dehant, S. A. Campuzano, A. De Santis, W. van Westrenen (2022) Correction to: Structure, Materials and Processes in the Earth’s Core and Mantle. Surveys in Geophysics. 43, 303-304. DOI: 10.1007/s10712-022-09706-3.

[32] V. Dehant, S. A. Campuzano, A. De Santis, W. van Westrenen (2022) Structure, Materials and Processes in the Earth’s Core and Mantle. Surveys in Geophysics. 43, 263-302. DOI: 10.1007/s10712-021-09684-y.

[31] G. Cianchini, A. Piscini, A. De Santis, S. A. Campuzano (2022) Fast Dst computation by applying deep learning to Swarm satellite magnetic data. Adv. Space Res. 69(2), 837-855. DOI: 10.1016/j.asr.2021.10.051.

[30] F. J. Pavón-Carrasco, S. Marsal, S. A. Campuzano, J. M. Torta (2021) Signs of a new geomagnetic jerk between 2019 and 2020 from Swarm and observatory data. Earth Planets Space. 73, 175. DOI: 10.1186/s40623-021-01504-2.

[29] A. González-López, M. L. Osete, S. A. Campuzano, A. Molina-Cardín, P. Rivera, F. J. Pavón-Carrasco (2021) Eccentric Dipole Evolution during the Last Reversal, Last Excursions, and Holocene Anomalies. Interpretation Using a 360-Dipole Ring Model. Geosciences. 11, 438. DOI: 10.3390/geosciences11110438.

[28] A. De Santis, D. Marchetti, L. Perrone, S. A. Campuzano, G. Cianchini, C. Cesaroni, D. Di Mauro, M. Orlando, A. Piscini, D. Sabbagh, M. Soldani, L. Spogli, Z. Zhima, X. Shen (2021) Statistical correlation analysis of strong earthquakes and ionospheric electron density anomalies as observed by CSES-01. Nuovo Cimento C. 44, 119. DOI: 10.1393/ncc/i2021-21119-1.

[27] F. J. Pavón‐Carrasco, S. A. Campuzano, M. Rivero‐Montero, A. Molina‐Cardín, M. Gómez‐Paccard, M. L. Osete (2021) SCHA. DIF. 4k: 4,000 years of paleomagnetic reconstruction for Europe and its application for dating. J. Geophys. Res - Sol. Ea. 126, e2020JB021237. DOI: 10.1029/2020JB021237.

[26] A. González-López, S. A. Campuzano, A. Molina-Cardín, F. J. Pavón-Carrasco, A. De  Santis, M. L. Osete(2021) Characteristic periods of the paleosecular variation of the Earth's magnetic field during the Holocene from global paleoreconstructions. Phys. Earth Planet. Inter. 312, 106656. DOI: 10.1016/j.pepi.2021.106656.

[25] L. Spogli,  D. Sabbagh,  M. Regi,  C. Cesaroni,  L. Perrone,  L. Alfonsi,  D. Di Mauro,  S. Lepidi,  S.A. Campuzano,  D. Marchetti,  A. De Santis,  A. Malagnini,  C. Scotto,  G. Cianchini,  X. Shen,  A. Piscini,  A. Ippolito (2021) Ionospheric response over Brazil to the August 2018 geomagnetic storm as probed by CSES‐01 and Swarm satellites and by local ground‐based observations. J. Geophys. Res-Space. 126, e2020JA028368. DOI: 10.1029/2020JA028368.

[24] M. Rivero-Montero, M. Gómez-Paccard, D. Kondopoulou, E. Tema, F.J. Pavón-Carrasco, E. Aidona, S.A. Campuzano, A. Molina-Cardín, M.L. Osete, A. Palencia-Ortas, F. Martín-Hernández, F. Rubat-Borel, M. Venturino(2021) Geomagnetic field intensity changes in the Central Mediterranean between 1500 BCE and 150 CE: Implications for the Levantine Iron Age Anomaly evolution. Earth Planet. Sc. Lett. 557, 116732. DOI: 10.1016/j.epsl.2020.116732.

[23] S.A. Campuzano, F.J. Pavón-Carrasco, A. De Santis, A. González-López, E. Qamili (2020) South Atlantic Anomaly areal extent as a possible indicator of geomagnetic jerks in the satellite era. Front. Earth Sci. 8, 563. DOI: 10.3389/feart.2020.607049.

[22] D. Marchetti, A. De Santis, S.A. Campuzano, M. Soldani, A. Piscini, D. Sabbagh, G. Cianchini, L. Perrone, M. Orlando(2020) Swarm Satellite Magnetic Field Data Analysis prior to 2019 Mw = 7.1 Ridgecrest (California, USA) Earthquake. Geosciences. 10(12), 1-10. DOI: 10.3390/geosciences10120502.

[21] A. De Santis, G. Cianchini, D. Marchetti, A. Piscini, D. Sabbagh, L. Perrone, S.A. Campuzano, S. Inan (2020) A Multiparametric Approach to Study the Preparation Phase of the 2019 M7.1 Ridgecrest (California, United States) Earthquake. Front. Earth Sci. 8, 540398. DOI: 10.3389/feart.2020.540398.

[20] D. Marchetti, A. De Santis, J. Shuanggen, S.A. Campuzano,  G. Cianchini, A. Piscini (2020) Co-Seismic Magnetic Field Perturbations Detected by Swarm Three-Satellite Constelallation. Remote Sens. Environ. 12(7), 1166. DOI: 10.3390/rs12071166.
[19] G. Cianchini, A. De Santis, R. Di Giovambattista, C. Abbattista, L. Amoruso, S.A. Campuzano, M. Carbone, C. Cesaroni, Anna De Santis, D. Marchetti, L. Perrone, A. Piscini, F. Santoro, L. Spogli (2020) Revised Accelerated Moment Release Under Test: Fourteen Worldwide Real Case Studies in 2014-2018 and Simulations. Pure Appl. Geophys., 1-31. DOI: 10.1007/s00024-020-02461-9.
[18] M.L. Osete, A. Molina-Cardín, S.A. Campuzano, G. Aguilella-Arzo, A. Barrachina-Ibañez, F. Falomir-Granell, A. Oliver Foix, M. Gómez-Paccard, F. Martín-Hernández, A. Palencia-Ortas, F.J. Pavón-Carrasco, M. Rivero-Montero (2020) Two archaeomagnetic intensity maxima and rapid directional variation rates during the Early Iron Age observed at Iberian coordinates. Implications on the evolution of the Levantine Iron Age Anomaly. Earth Planet. Sc. Lett. 533, 116047. DOI: 10.1016/j.epsl.2019.116047.
[17] C. Caricchi, L. Sagnotti, S.A. Campuzano, R.G. Lucchi, P. Macrì, M. Rebesco, A. Camerlenghi (2020) A refined age calibrated paleosecular variation and relative paleointensity stack for the NW Barents Sea: Implication for geomagnetic field behavior during the Holocene. Quaternary Sci. Rev. 229, 106133. DOI: 10.1016/j.quascirev.2019.106133. 

[16] D. Marchetti, A. De Santis, X. Shen, S.A. Campuzano, L. Perrone, A. Piscini, R. Di Giovambattista, S. Jin, A. Ippolito, G. Cianchini, C. Cesaroni, D. Sabbagh, L. Spogli, Z. Zhima, J. Huang (2020) Possible Lithosphere-Atmosphere-Ionosphere Coupling effects prior to the 2018 Mw=7.5 Indonesia earthquake from seismic, atmospheric and ionospheric data. Journal of Asian Earth Sciences 188, 104097. DOI: 10.1016/j.jseaes.2019.104097. 

[15] A. De Santis, D. Marchetti, F.J. Pavón-Carrasco, G. Cianchini, L. Perrone, C. Abbattista, L. Alfonsi, L. Amoruso, S.A. Campuzano, M. Carbone, C. Cesaroni, G. De Franceschi, Anna De Santis, R. Di Giovambattista, A. Ippolito, A. Piscini, D. Sabbagh, M. Soldani, F. Santoro, L. Spogli, R. Haagmans (2019) Precursory worldwide signatures of earthquake occurrences on Swarm satellite data. Sci. Rep. 9, 20287. DOI: 10.1038/s41598-019-56599-1.

[14] A. De Santis; D. Marchetti; L. Spogli; G. Cianchini; F.J. Pavón-Carrasco; G. De Franceschi; R. Di Giovambattista; L. Perrone; E. Qamili; C. Cesaroni; A. De Santis; A. Ippolito; A. Piscini; S.A. Campuzano; D. Sabbagh; L. Amoruso; M. Carbone; F. Santoro; C. Abbattista; D. Drimaco (2019) Magnetic Field and Electron Density Data Analysis from Swarm Satellites Searching for Ionospheric Effects by Great Earthquakes: 12 Case Studies from 2014 to 2016. Atmosphere 10, 371. DOI: 10.3390/atmos10070371.
[13] D. Marchetti; A. De Santis; S. D’Arcangelo; F. Poggio; A. Piscini; S.A. Campuzano; Werneck V.J.O. De Carvalho (2019) Pre-earthquake chain processes detected from ground to satellite altitude in preparation of the 2016–2017 seismic sequence in Central Italy. Remote Sens. Environ. 229, 93-99. DOI: 10.1016/j.rse.2019.04.033.

[12] A. De Santis; C. Abbattista; L. Alfonsi; L. Amoruso; S.A. Campuzano; M. Carbone; C. Cesaroni; G. Cianchini; G. De Franceschi; A. De Santis; R. Di Giovambattista; D. Marchetti; L. Martino; L. Perrone; A. Piscini; M.L. Rainone; M. Soldani; L. Spogli; F. Santoro (2019) Geosystemics View of Earthquakes. Entropy 21, 412. DOI: 10.3390/e21040412.

[11] F.J. Pavón-Carrasco; M. Gómez-Paccard; S.A. Campuzano; J.F. González-Rouco; M.L. Osete (2019) Corrigendum: Multi-centennial fluctuations of radionuclide production rates are modulated by the Earth’s magnetic field. Sci. Rep. 9, 4164. DOI: 10.1038/s41598-018-36666-9. 

[10] D. Marchetti; A. De Santis; S. D’Arcangelo; F. Poggio; S. Jin; A. Piscini; S.A. Campuzano (2019) Magnetic Field and Electron Density Anomalies from Swarm Satellites Preceding the Major Earthquakes of the 2016–2017 Amatrice-Norcia (Central Italy) Seismic Sequence.  Pure Appl. Geophys. 177, 305-319. DOI: 10.1007/s00024-019-02138-y.
[9] S.A. Campuzano; M. Gómez-Paccard; F.J. Pavón‐Carrasco; M.L. Osete (2019) Emergence and evolution of the South Atlantic Anomaly revealed by the new paleomagnetic reconstruction SHAWQ2k. Earth Planet. Sc. Lett. 512, 17-26. DOI: 10.1016/j.epsl.2019.01.050.
[8] M. Gómez-Paccard; A. Chauvin; M.E. Albeck; M.A. Zaburlín; D.M. Basso; F.J. Pavón-Carrasco; M.L. Osete; S.A. Campuzano (2019). New archeointensity data from NW Argentina (1300-1500 AD). Phys. Earth Planet. Inter. 286, 92-100. DOI: 10.1016/j.pepi.2018.11.004.
[7] S.A. Campuzano; A. De Santis; F.J. Pavón-Carrasco; M.L. Osete; E. Qamili (2018). New perspectives in the study of the Earth’s magnetic field and climate connection: The use of transfer entropy.  Plos One. 13 (11), e0207270. DOI: 10.1371/journal.pone.0207270.
[6] A. Molina-Cardín; S.A. Campuzano; M.L. Osete; M. Rivero-Montero; F.J. Pavón-Carrasco; A. Palencia-Ortas; F. Martín-Hernández; M. Gómez-Paccard; A. Chauvin; S. Guerrero-Suárez; J.C. Pérez-Fuentes; G. McIntosh; G. Catanzariti; J.C. Sastre Blanco; J. Larrazabal; V.M. Fernández Martínez; J.R. Álvarez  Sanchís; J. Rodríguez-Hernández; I. Martín Viso; D. Garcia i Rubert (2018). Updated Iberian archeomagnetic catalogue: New full vector paleosecular variation curve for the last three millennia. Geochem Geophy Geosy. 19. American Geophysical Union. DOI: 10.1029/2018GC007781.
[5] F.J. Pavón-Carrasco; M. Gómez-Paccard; S.A. Campuzano; J.F. González-Rouco; M.L. Osete (2018). Multi-centennial fluctuations of radionuclide production rates are modulated by the Earth’s magnetic field. Sci. Rep. 8(1), pp. 9820. Nature Publishing Group. DOI: 10.1038/s41598-018-28115-4.
[4] A. Palencia-Ortas; M.L. Osete; S.A. Campuzano; G. McIntosh, J. Larrazabal, J. Sastre, J. Rodriguez-Aranda (2017). New archaeomagnetic directions from Portugal and evolution of the geomagnetic field in Iberia from Late Bronze Age to Roman Times. Phys. Earth Planet. Inter. 270, pp. 183 - 194. Elsevier B.V. DOI: 10.1016/j.pepi.2017.07.004.
[3] M.L. Osete, A. Chauvin, G. Catanzariti, A. Jimeno, S. A. Campuzano, J.P. Benito-Batanero, P. Roperch (2016) New archaeomagnetic data recovered from the study of celtiberic remains from central Spain (Numantia and Ciadueña, 3rd-1st centuries BC). Implications on the fidelity of the Iberian palaeointensity database. Phys. Earth Planet. Inter. 260, 74-86.
DOI: 10.1016/j.pepi.2016.09.006.

[2] S.A. Campuzano, A. De Santis, F.J. Pavón-Carrasco, M.L. Osete, E. Qamili (2016) Transfer entropy between South Atlantic Anomaly and Global Sea Level for the last 300 years. Nat. Hazards Earth Syst. Sci. Discuss. DOI: 10.5194/nhess-2016-56.

[1] S.A. Campuzano, F.J. Pavón-Carrasco, M.L. Osete (2015) Non-Dipole and Regional Effects on the Geomagnetic Dipole Moment Estimation. Pure Appl. Geophys. 172(1), 91-107. 
DOI: 10.1007/s00024-014-0919-3.

Books:

[2] M.L. Osete; S.A. Campuzano; A. Molina-Cardín; A. Palencia; J. Carmona; G. McIntosh; J. Larrazabal (2018). On the reliability of archaeomagnetic dating in Iberia. Two case studies from Portugal and Spain. Archaeology in the River Duero valley (Spain and Portugal). Cambridge Scholars Publishing. ISBN 978-1-5275-1307-5

[1] F.J. Pavón-Carrasco, M.L. Osete, S.A. Campuzano, G. McIntosh, F. Martín-Hernández (2015). Recent developments in Archeomagnetism: the story of the Earth's past magnetic field. Chapter in "New Developments in Paleomagnetism Research", Ed. L. V. Eppelbaum. pp. 99 - 158. Nova Science Publishers, Inc. New York (USA). ISBN 978-1-63483-129-1

Non-ISI Journal articles:
[2] S.A. Campuzano; M. Gómez-Paccard; F.J. Pavón-Carrasco; M.L. Osete (2016). Modelos globales del campo magnético terrestre para los últimos 3000 años: discrepancias según las bases de datos usadas. Global models of the geomagnetic field for the last 3000 years: differences according to used databases. Geo-Temas. 16 - 1, pp. 809 - 812. Sociedad Geológica de España. ISSN 1576-5172

[1] M.L. Osete; S.A. Campuzano; F.J. Pavón-Carrasco; A. Palencia-Ortas; G. McIntosh; G. Catanzariti (2016). La Curva de Variación Paleosecular de Iberia (últimos 3000 años). Estado actual y perspectivas de futuro. The Iberian Palaeosecular Variation Curve (last three millennia). State of the art and future perspectives. Geo-Temas. 16 - 1, pp. 861 - 864. Sociedad Geológica de España. ISSN 1576-5172
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