Alexandre Fournier

Liang Shen, Lucas Antoine, Porder Stephen, Sainton Gregory, Fournier Alexandre, Palpanas Themis. FARMYARD: A Generic GPU-based Pipeline for Feature Discovery from Massive Planetary LiDAR Data. 14 octobre 2022. <10.36227/techrxiv.21303411.v1>

Gopinath Venkatesh, Gastine Thomas, Fournier Alexandre. An assessment of implicit-explicit time integrators for the pseudo-spectral approximation of Boussinesq thermal convection in an annulus. Journal of Computational Physics, Elsevier, 2022, 460. <10.1016/j.jcp.2022.110965>

Landeau Maylis, Fournier Alexandre, Nataf Henri-Claude, Cébron David, Schaeffer Nathanaël. Sustaining Earth’s magnetic dynamo. Nature Reviews Earth & Environment, Nature, 2022, 3. <10.1038/s43017-022-00264-1>

Gwirtz K., Davis T., Morzfeld M., Constable C., Fournier A., Hulot G.. Can machine learning reveal precursors of reversals of the geomagnetic axial dipole field?. Geophysical Journal International, Oxford University Press (OUP), 2022, 231. <10.1093/gji/ggac195>

Aubert Julien, Livermore Philip W, Finlay Christopher C, Fournier Alexandre, Gillet Nicolas. A taxonomy of simulated geomagnetic jerks. Geophysical Journal International, Oxford University Press (OUP), 2022, 231. <10.1093/gji/ggac212>

Genevey Agnès, Gallet Yves, Thébault Erwan, Livermore Philip W, Fournier Alexandre, Le Goff Maxime. Geomagnetic intensity variations in Western Europe over the past 1700 years: Contributions and limitations of intensity dating of archeological ceramics (Invited). 13 décembre 2021.

Fournier Alexandre, Aubert Julien, Lesur Vincent, Thébault Erwan. Physics-based secular variation candidate models for the IGRF. Earth Planets and Space, Springer / Terra Scientific Publishing Company, décembre 2021, 73. <10.1186/s40623-021-01507-z>

Genevey A., Gallet Yves, Thébault Erwan, Livermore Philip W, Fournier Alexandre. Archeointensity-based dating method: Examples from France and the Near-East. 01 novembre 2021.

Gallet Yves, Genevey Agnès, Le Goff Maxime, Warmé Nicolas, Fournier Alexandre. Applications archéologiques des recherches en archéomagnétisme menées à l'institut de Physique du Globe de Paris (IPGP) et au Laboratoire d'Archéologie Moléculaire et Structurale (LAMS). 01 novembre 2021.

Genevey Agnès, Gallet Yves, Thébault Erwan, Livermore Phil, Fournier Alexandre. Archeointensity-based dating method: Examples from France and the Near-East. 01 novembre 2021.

Tassin Théo, Gastine Thomas, Fournier Alexandre. Geomagnetic semblance and dipolar–multipolar transition in top-heavy double-diffusive geodynamo models. Geophysical Journal International, Oxford University Press (OUP), 10 septembre 2021, 226. <10.1093/gji/ggab161>

Genevey Agnès, Gallet Yves, Thébault Erwan, Livermore Philip W., Fournier Alexandre, Jesset Sébastien, Lefèvre Annie, Mahé-Hourlier Nadine, Marot Emmanuel, Regnard Stéphane. Archeomagnetic intensity investigations of French medieval ceramic workshops: Contribution to regional field modeling and archeointensity-based dating. Physics of the Earth and Planetary Interiors, Elsevier, septembre 2021, 318. <10.1016/j.pepi.2021.106750>

Gallet Y., Fournier A., Livermore P.W. W. Tracing the geomagnetic field intensity variations in Upper Mesopotamia during the Pottery Neolithic to improve ceramic-based chronologies. Journal of Archaeological Science, Elsevier, août 2021, 132. <10.1016/j.jas.2021.105430>

Livermore Philip W, Gallet Yves, Fournier Alexandre. Archeomagnetic intensity variations during the era of geomagnetic spikes in the Levant. Physics of the Earth and Planetary Interiors, Elsevier, mars 2021, 312. <10.1016/j.pepi.2021.106657>

Alken P, Thébault Erwan, Beggan C D, Amit Hagay, Aubert J, Baerenzung J, Bondar T N, Brown W J, Califf S, Chambodut A, Chulliat A, Cox G A, Finlay C C, Fournier A, Gillet N, Grayver A, Hammer M D, Holschneider M, Huder L, Hulot G G, Jager T, Kloss C, Korte M, Kuang W, Kuvshinov A, Langlais Benoit, Léger J-M, Lesur V, Livermore P W, Lowes F J, Macmillan S, Magnes W, Mandea M, Marsal S, Matzka J, Metman M C, Minami T, Morschhauser A, Mound J E, Nair M, Nakano S, Olsen N, Pavón-Carrasco F J, Petrov V G, Ropp G, Rother M, Sabaka T J, Sanchez S, Saturnino Diana, Schnepf N R, Shen X, Stolle C, Tangborn A, Tøffner-Clausen L, Toh H, Torta J M, Varner J, Vervelidou F, Vigneron P, Wardinski I, Wicht J, Woods A, Yang Y, Zeren Z, Zhou B. International Geomagnetic Reference Field: the thirteenth generation. Earth Planets and Space, Springer / Terra Scientific Publishing Company, 11 février 2021, 73. <10.1186/s40623-020-01288-x>

Troyano Marie, Gallet Yves, Genevey Agnès, Pavlov Vladimir, Fournier Alexandre, Lagroix France, Niyazova Makhsuma, Mirzaakhmedov Dzhamal. Analyzing the geomagnetic axial dipole field moment over the historical period from new archeointensity results at Bukhara (Uzbekistan, Central Asia). Physics of the Earth and Planetary Interiors, Elsevier, janvier 2021, 310. <10.1016/j.pepi.2020.106633>

Fournier Alexandre, Aubert Julien, Lesur Vincent, Ropp Guillaume. A secular variation candidate model for IGRF-13 based on Swarm data and ensemble inverse geodynamo modelling. Earth Planets and Space, Springer / Terra Scientific Publishing Company, 2021, 73. <10.1186/s40623-020-01309-9>

Gallet Y, Fournier A, Livermore P W. Tracing the geomagnetic field intensity variations in Upper Mesopotamia during the Pottery Neolithic to improve ceramic-based chronologies. Journal of Archaeological Science, Elsevier, 2021, 132. <10.1016/j.jas.2021.105430>

Gwirtz K., Morzfeld M., Fournier A., Hulot G.. Can one use Earth's magnetic axial dipole field intensity to predict reversals?. Geophysical Journal International, Oxford University Press (OUP), 2021, 225. <10.1093/gji/ggaa542>

Alken P., Thébault Erwan, Beggan C. D., Aubert J., Baerenzung J., Brown W. J., Califf S., Chulliat A., Cox G. A., Finlay C. C., Fournier A., Gillet N., Hammer M. D., Holschneider M., Hulot G., Korte M., Lesur V., Livermore P. W., Lowes F. J., Macmillan S., Nair M., Olsen N., Ropp G., Rother M., Schnepf N. R., Stolle C., Toh H., Vervelidou F., Vigneron P., Wardinski I.. Evaluation of candidate models for the 13th generation International Geomagnetic Reference Field. Earth Planets and Space, Springer / Terra Scientific Publishing Company, 2021, 73. <10.1186/s40623-020-01281-4>