Benoit Langlais - Publications (liste complète)

https://orcid.org/0000-0001-5207-304X

[71] Alken, P., E. Thébault, C. Beggan, H. Amit, J. Aubert, J. Baerenzung, T. Bondar, W. Brown, S. Califf, A. Chambodut, A. Chulliat, G. Cox, C. Finlay, A. Fournier, N. Gillet, A. Grayver, M. Hammer, M. Holschneider, L. Huder, G. Hulot, T. Jager, C. Kloss, M. Korte, W. Kuang, A. Kuvshinov, B. Langlais, J.-M. Leger, V. Lesur, P. Livermore, F. Lowes, S. Macmillan, W. Magnes, M. Mandea, S Marsal, J. Matzka, M. Metman, T. Minami, A. Morschhauser, J. Mound, M. Nair, S. Nakano, N. Olsen, F. J. Pavon-Carrasco, V. Petrov, G. Ropp, M. Rother, T. Sabaka, S. Sanchez, D. Saturnino, N. Schnepf, X. Shen, C. Stolle, A. Tangborn, L. Toffner-Clausen, H. Toh, J.M. Torta, J. Varner, F. Vervelidou, P. Vigneron, I. Wardinski, J. Wicht, A. Woods, Y. Yang, Z. Zeren, B. Zhou, International Geomagnetic Reference Field: the thirteenth generation, Earth Planets and Space, 2020.

[70] Milillo, A., M. Fujimoto, G. Murakami, J. Benkhoff, J. Zender, S. Aizawa, M. Dósa, L. Griton, D. Heyner, G. Ho, S. M. Imber, X. Jia, T. Karlsson, R. M. Killen, M. Laurenza S. T. Lindsay, S. McKenna-Lawlor, A. Mura, J. M. Raines, D. A. Rothery, N. André, W. Baumjohann, A. Berezhnoy, P. A. Bourdin, E. J. Bunce, F. Califano, J. Deca, S. de la Fuente, C. Dong, C. Grava, S. Fatemi, P. Henri, S. L. Ivanovski, B. V. Jackson, M. James, E. Kallio, Y. Kasaba, E. Kilpua, M. Kobayashi, B. Langlais, F. Leblanc, C. Lhotka, V. Mangano, A. Martindale, S. Massetti, A. Masters, M. Morooka, Y. Narita, J. Oliveira, D. Odstrcil, S. Orsini, M. G. Pelizzo, C. Plainaki, F. Plaschke, F. Sahraoui, K. Seki, J. A. Slavin, R. Vainio, P. Wurz, S. Barabash, C. M. Carr, D. Delcourt, K.-H. Glassmeier, M. Grande, M. Hirahara, J. Huovelin, O. Korablev, H. Kojima, H. Lichtenegger, S. Livi, A. Matsuoka, R. Moissl, M. Moncuquet, K. Muinonen, E. Quèmerais, Y. Saito, S. Yagitani, I. Yoshikawa, J.-E. Wahlund, Investigating Mercury's Environment with the Two-Spacecraft BepiColombo Mission, Space Science Reviews, doi : 10.1007/s11214-020-00712-8, 2020.

[69] Diaz-Michelina, M., R. Kilian, O. Baeza, F. Rios, M.A. Rivero, J.L. Mesa, V. González, A.A. Ordoñez, B. Langlais, M.C.L. Rocca, et R.D. Acevedo, The formation of a giant collapse caprock sinkhole on the Barda Negra plateau basalts (Argentina): Magnetic, mineralogical and morphostructural evidences, Geomorphology, 367, doi: 10.1016/j.geomorph.2020.107297, 2020.

[68] Mittelholz, A., C. Johnson, J. M. Feinberg, B. Langlais, R. J. Phillips, Timing of the Martian Dynamo: New Constraints for a Core Field at 4.5 Ga and 3.7 Ga, Science Advances, 2020

[67] Johnson, C., A. Mittelholz, B. Langlais, C. Russell, V. Ansan, D. Banfield, P. Chi, M. Fillingim, F. Forget, H. Fuqua Haviland, M. Golombek, S. Joy, P. Lognonné, X. Liu, C. Michaut, L. Pan, C. Quantin-Nataf, A. Spiga, S. Stanley, S. Thorne, M. Wieczorek, Y. Yu, S. E. Smrekar, and W. Banerdt, Crustal and time-varying magnetic fields at the InSight landing site on Mars, Nature Geoscience, 2020

[66] Bouley, S., J. Keane, D. Baratoux, B. Langlais, I. Matsuyama, F. Costard, R. Hewins, V. Payré, V. Sautter, A. Séjourné, O. Vanderhaege, and B. Zanda, A thick crustal block revealed by reconstuctions of early Mars’ highlands, Nature Geoscience, 2020

[65] Pan, L., C. Quantin-Nataf, B. Tauzin, C. Michaut, M. Golombek, P. Lognonné, P. Grindrod, B. Langlais, T. Gudkova, I. Stepanova, S. Rodriguez, and A. Lucas, Crust stratigraphy and heterogeneities of the first kilometers at the dichotomy boundary in western Elysium Planitia and implications for InSight lander, Icarus, doi: 10.1016/j.icarus.2019.113511. 2020

[64] Oliveira, J. S., L. L. Hood, and B. Langlais, Constraining the Early History of Mercury and its Core Dynamo by Studying the Crustal Magnetic Field, J. Geophys. Res., in the press, doi: 10.1029/2019JE005938, 2019.

[63] Wardinski, I., B. Langlais and E. Thébault, Correlated time-varying magnetic fields and the core size of Mercury, J. Geophys. Res., in the press, doi: 10.1029/2018JE005835, 2019.

[62] Langlais, B., E. Thébault, A. Houliez, M.E. Purucker, and R.J. Lillis, A new model of the crustal magnetic field of Mars using MGS and MAVEN, J. Geophys. Res., 124, 10.1029/2018JE005854, 2019.

[61] Smrekar, S., P. Lognonné, T. Spohn, W. Banerdt, D. Breuer, U. Christensen, V. Dehant, M. Drilleau, W. Folkner, N. Fuji, R. Garcia, D. Giardini, M. Golombek, M. Grott, T. Gudkova, C. Johnson, A. Khan, B. Langlais, A. Mittelholz, A. Mocquet, R. Myhill, M. Panning, C. Perrin, T. Pike, A.-C. Plesa, A. Rivoldini, H. Samuel, S. C. Stähler, M. van Driel, T. Van Hoolst, O. Verhoeven, R. Weber, and M. Wieczorek, Pre-mission InSights on the Interior of Mars. Spa. Sci. Rev. 215. 10.1007/s11214-018-0563-9, 2019.

[60] Mittelhoz, A., A. Morschhauser, C.L. Johnson, B. Langlais, R.J. Lillis, F. Vervelidou, and B.P. Weiss, The MARS 2020 candidate landing sites: a magnetic field perspective, Earth Spa. Sci., doi: 10.1029/2018EA000420, 2018.

[59] Saturnino, D, B. Langlais, H. Amit, F. Civet, M. Mandea and E. Beucler, Combining virtual observatory and equivalent source dipole approaches to describe the geomagnetic field with Swarm measurements, Phys. Earth Planet. Int., 276, 2018.

[58] Thébault, E., B. Langlais, J. S. Oliveira, H. Amit, and L. Leclercq, A time-averaged regional model of the Hermean magnetic field, Phys. Earth Planet. Int., 276, 2018.

[57] Le Bars, M., B.Langlais, H. Amit; J. Aurnou, M. Bergman; C. Thomas, Proceedings of the 15th Symposium of the Study of the Earth Deep Interior (SEDI), Phys. Eath Planet. Int., 276, 2018.

[56] Langlais, B., F. Civet, and E. Thébault, In situ and remote characterization of the external field temporal variations at Mars, J. Geophyr. Res., 122, 2017.

[55] Chassefière, E., J. Lasue, B. Langlais and Y. Quesnel, Early Mars serpentinization-derived CH4 reservoirs, H2-induced warming and paleopressure evolution, Met. Planet. Sci., 51, 2016.

[54] Thébault, E., P. Vigneron, B. Langlais, and G. Hulot, A Swarm lithospheric magnetic field model to SH degree 80, Earth Planets and Space, 68, 2016.

[53] Isac, A., M. Mandea, M. Purucker, and B. Langlais, A comparative analysis of the magnetic field signals over impact structures on the Earth, Mars and the Moon, Advances in Space Research, 57, 2016.

[52] Lasue, J., Y. Quesnel, B. Langlais, and E. Chassefière, Methane storage capacity of the early Martian cryosphere, Icarus, 260, 2015.

[51] Amit, H., G. Choblet, P. Olson, J. Monteux, F. Deschamps, B. Langlais et G. Tobie, Towards more realistic core-mantle boundary heat flux patterns: a source of diversity in planetary dynamos, Progress in Earth and Planetary Science, 2, 2015.

[50] Thébault, E., C.C. Finlay, P. Alken, C. Beggan, E. Canet, A. Chulliat, B. Langlais, V. Lesur, F.J. Lowes, C. Manoj, M. Rother, R. Schachtschneider, Evaluation of candidate geomagnetic field models for IGRF-12, Earth Planets and Space, 67, 2015.

[49] Saturnino D., B. Langlais, F. Civet, E. Thébault, and M. Mandea, Main Field and Secular Variation Candidate Models for the 12th IGRF generation after 10 months of Swarm measurements, Earth Planets and Science, 67, 2015.

[48] Oliveira, J., B. Langlais, M.A. Pais and H. Amit, A modified Equivalent Source Dipole method to model partially distributed magnetic field measurements, with application to Mercury, J. Geophys. Res., 120, 2015.

[47] Thébault, E., C.C. Finlay, C. Beggan, P. Alken, J. Aubert, O. Barrois, F. Bertrand, T. Bondar, A. Boness, L. Brocco, E. Canet, A. Chambodut, A. Chulliat, P. Coisson, F. Civet, A. Du, A. Fournier, I. Fratter, N. Gillet, B. Hamilton, M. Hamoudi, G. Hulot, T. Jaeger, M. Korte, W. Kuang, X. Lalanne, B. Langlais, J.-M. Léger, V. Lesur, F.J. Lowes, S. Macmillan, M. Mandea, C. Manoj, S. Maus, N. Olsen, V. Petrov, M. Rother, T.J. Sabaka, D. Saturnino, R. Schachtschneider, O. Sirol, A. Tangborn, V. Taylor, A. Thomson, L. Toffner-Clausen, P. Vigneron, I. Wardinski, T. Zvereva, International Geomagnetic Reference Field : the 12th generation, Earth Planets and Space, 67, 2015.

[46] Civet F., E. Thébault, O. Verhoeven, B. Langlais, et D. Saturnino, Electromagnetic induction results after one year of Swarm magnetic field measurements, Geophys. Res. Lett., 42, 2015.

[45] Monteux, J., Amit, H., Choblet, G., Langlais, B., Tobie, G., Giant impacts, heterogeneous mantle heating and a past hemispheric dynamo on Mars, Phys. Earth Planet. Int, 240, 2015.

[44] Langlais, B., H. Amit, H. Larnier, E. Thebault, and A. Mocquet, A new model for the (geo)magnetic power spectrum, with application to planetary dynamo radii, Earth Planet. Sci. Lett., 401, 2014.

[43] Chassefière, B. Langlais, Y. Quesnel and F. Leblanc, The fate of early Mars’ lost water: the role of serpentinization, J. Geophys. Res., 118, 2013.

[42] Cartacci, M., E. Amata, A. Cicchetti, R. Noschese, S. Giuppi, B. Langlais, A. Frigeri, R. Orosei, and G. Picardi, Mars ionosphere total electron content analysis from MARSIS subsurface data, Icarus, 223, 2013

[41] Milbury, C., G. Schubert, C. A. Raymond, S.E. Smrekar and B. Langlais, The history of Mars’ dynamo as revealed by modeling magnetic anomalies near Tyrrhenus Mons and Syrtis Major, J. Geophys. Res., 117, 2012.

[40] Dehant, V., B. Banerdt, P. Lognonné, M. Grott, S. Asmar, J. Biele, D. Breuer, F. Forget, R. Jaumann, C. Johnson, M. Knapmeyer, B. Langlais, M. Le Feuvre, D. Mimoun, A. Mocquet, P. Read, A. Rivoldini, O. Romberg, G. Schubert, S. Smrekar, T. Spohn, P. Tortora, S. Ulamec, S. Vennerstrom, Mars future geophysical observatories for understanding its internal structure, rotation and evolution, Planet. Spa. Sci., 68, 2012.

[39] Mangold, N., S. Adeli, S. J. Conway, V. Ansan, B. Langlais, A chronology of early Mars climatic evolution from impact crater degradation, J. Geophys. Res., 117, 2012.

[38] Amit, H., U. Christensen, et B. Langlais, The influence of degree-1 mantle heterogeneity on the past dynamo of Mars, Phys. Earth. Planet. Int., 189, 2011.

[37] Langlais, B., E. Thébault, Predicted and observed magnetic signatures of martian (de)magnetized impact craters, Icarus, 212, doi: 10.1016/j.icarus.2011.01.015, 2011.

[36] Finlay, C.C., S. Maus, C. D. Beggan, T. N. Bondar, A. Chambodut, T. A. Chernova, A. Chulliat, V. P. Golovkov, B. Hamilton, M. Hamoudi, R. Holme, G. Hulot, W. Kuang, B. Langlais, V. Lesur, F. J. Lowes, H. Luhr, S. Macmillan, M. Mandea, S. McLean, C. Manoj, M. Menvielle, I. Michaelis, N. Olsen, J. Rauberg, M. Rother, T. J. Sabaka, A. Tangborn, L. Tøffner-Clausen, E. Thebault, A. W. P. Thomson, I. Wardinski, Z. Weiand T. I. Zvereva, International Geomagnetic Reference Field: The Eleventh Generation, Geophys. J. Int., 3, doi: 10.1111/j.1365-246X.2010.04804, 2010.

[35] Thébault, E., M. Purucker, K.A. Whaler, B. Langlais, and T.J. Sabaka, The magnetic field of the Earth’s lithosphere, Space Science Review, 152, doi: 10.1007/s11214-009-9557-y, 2010.

[34] Hood, L. L., K. P. Harrison, B. Langlais, R.J. Lillis, F. Poulet, and D. A. Williams, Magnetic anomalies near Apollinaris Patera and the Medusae Fossae Formation in Lucus Planum, Mars, Icarus, 208, doi: 10.1016/j.icarus/.2010.01.009, 2010.

[33] Langlais, B., V. Lesur, M.E. Purucker, J.E.P. Connerney, and M. Mandea, Crustal magnetic fields of terrestrial planets, Space Science Reviews, 152, doi: 10.1007/s11214-009-9557-y, 2010.

[32] Thébault, E., A. Chulliat, S. Maus, G. Hulot, B. Langlais, A. Chambodut, and M. Menvielle, IGRF candidate models at times of rapid changes in core field acceleration, Earth, Planets and Space, 62, doi: 10.5047/eps.2010.05.004, 2010.

[31] Chambodut, A., B. Langlais, M. Menvielle, Thébault, E., A. Chulliat, and G. Hulot,Candidate models for the IGRF 11^th generation making use of extrapolated observatory data, Earth, Planets and Space, 62, doi: 10.5047/eps.2010.06.006, 2010.

[30] Quesnel, Y., U. Weckmann, O. Ritter, J. Stankiewicz, V. Lesur, M. Mandea, B. Langlais, C. Sotin, and A. Galdéano, Simple Model for the Beattie Magnetic Anomaly in South Africa, Tectonophysics, 478, doi: 10.1016/j.tecto.2008.11.027, 2009.

[29] Hankard, F., J. Gattacceca, C. Fermon, M. Pannetier-Lecoeur, B. Langlais, Y. Quesnel, P. Rochette, and S. A. McEnroe, Magnetic field microscopy of rock samples using a giant magnetoresistance-based scanning magnetometer, Geochem., Geophys., Geosys., 10, doi: 10.1029/2009GC002750, 2009.

[28] Langlais, B., F. Leblanc, T. Fouchet, S. Barabash, D. Breuer, E. Chassefière, A. Coates, V. Dehant, F. Forget, H. Lammer, S. Lewis, M. Lopez-Valverde, M. Mandea, M. Menvielle, A. Pais, M. Paetzold, P. Read, C. Sotin, P. Tarits, S. Vennerstrøm, G. Branduardi-Raymont, G. Cremonese, J. Merayo, T. Ott, H. Rème, J.G. Trotignon, and J.E. Walhund, Mars Environment and Magnetic Orbiter Model Payload, Experimental Astronomy, 23, doi: 10.1007/s10686-008-9101-1, 2009.

[27] Quesnel, Y., C. Sotin, B. Langlais, S. Costin, M. Mandea, M. Gottschalk, and J. Dyment, Serpentinization of the Martian Crust During Noachian, Earth and Planetary Science Letters, 277, 184-193, doi: 10.1016/j.epsl.2008.10.012, 2009.

[26] Leblanc, F., B. Langlais, T. Fouchet, S. Barabash, D. Breuer, E. Chassefière, A. Coates, V. Dehant, F. Forget, H. Lammer, S. Lewis, M. Lopez-Valverde, M. Mandea, M. Menvielle, A. Pais, M. Paetzold, P. Read, C. Sotin, P. Tarits, S. Vennerstrøm, Mars Environment and Magnetic Orbiter Scientific and Measurement Objectives, Astrobiology, 9(1), 71-89, doi: 10.1089/AST.2007.022, 2009.

[25] Boesswetter, A., U. Auster, I. Richter, M. Franz, B. Langlais, S. Simon, U. Motschmann, K.H. Glassmeier, N.J.T. Edberg, and R. Lundin, Rosetta Swing-by at Mars – An Analysis of the ROMAP Measurements in Comparison with Results of 3D Multi-Ion Hybrid Simulations and MEX/ASPERA-3 Data, Ann. Geophys. 26, 2383-2398, 2009.

[24] Quesnel, Y., B. Langlais, C. Sotin and A. Galdéano, Modeling and Inversion of Local Magnetic Anomalies, Journal of Geophysics and Engineering, 5, 387-400, 2008.

[23] Langlais, B., and Y. Quesnel, New Perspectives on Mars’ Crustal Magnetic Field, Comptes Rendus Géosciences, doi: 10.1016/j.crte.2008.08.006, 340, 791-800, 2008.

[22] Langlais, B., and H. Amit, The Past Martian Dynamo, Science, 321, 1784-1785, 2008.

[21] Wicht, J., M. Mandea, F. Takahashi, U.R. Christensen, M. Matsushima, and B. Langlais, The Origin of Mercury’s Internal Magnetic Field, Space Science Reviews, 132, 2007.

[20] Chassefière, E., F. Leblanc, and B. Langlais, The combined effects of escape and magnetic field history at Mars, Planet. Space Sci., 55, 2007.

[19] Langlais, B., and M. Purucker, A polar magnetic paleopole associated with Apollinaris Patera Mars, Planet. Space Sci., 55, 2007.

[18] Quesnel, Y., B. Langlais, and C. Sotin, Local inversion of magnetic anomalies: implication for Mars' crustal evolution, Planet. Space Sci., 55, 2007.

[17] Rochette, P., J. Gattacceca, V. Chevrier, P.E. Mathé, M. Menvielle, P. Brauer, P. Dussouliez, C. Fabron, L. Hood, P.A. Jensen, B. Langlais, S.L. Larsen, M.B. Madsen, J. Merayo, G. Mussmann, H. Newsom, E. Petrovsky, F. Primdalh, G. Sarraco, F. Vadeboin, and S. Vennerstrøm, Magnetism iron minerals and life on Mars, Astrobiology, 6 (3), 2006.

[16] Chambodut, A., B. Langlais and M. Mandea, Candidate main-field models for the DGRF 1995 and 2000, Earth Planets Space, 57, 12, pp 1197-1202, 2005.

[15] Langlais B., M. Purucker, and M. Mandea, Crustal magnetic field of Mars, J. Geophys. Res., 109, E02008, 10.1029/2003JE002048, 2004.

[-] Macmillan S., S. Maus, T. Bondar, A. Chambodut, V. Golovkov, R. Holme, B. Langlais, V. Lesur, F. Lowes, H. Lühr, W. Mai, M. Mandea, N. Olsen, M. Rother, T. Sabaka, A. Thomson and I. Wardinski, The 9th-Generation International Geomagnetic Reference Field, EOS, Trans. Amer. Geophys. Union, 84, 46, 2003.

[14] Macmillan S., S. Maus, T. Bondar, A. Chambodut, V. Golovkov, R. Holme, B. Langlais, V. Lesur, F. Lowes, H. Lühr, W. Mai, M. Mandea, N. Olsen, M. Rother, T. Sabaka, A. Thomson and I. Wardinski, The 9th-Generation International Geomagnetic Reference Field, Phys. Earth Plan. Int., 140, pp. 243-253, 2003.

[13] Macmillan S., S. Maus, T. Bondar, A. Chambodut, V. Golovkov, R. Holme, B. Langlais, V. Lesur, F. Lowes, H. Lühr, W. Mai, M. Mandea, N. Olsen, M. Rother, T. Sabaka, A. Thomson and I. Wardinski, The 9th-Generation International Geomagnetic Reference Field, Geophys. J. Int., 155, pp. 1051--1056, 2003.

[12] Langlais B., M. Mandea, and P. Ultré-Guérard, High-resolution magnetic field modeling: application to MAGSAT and Orsted data, Phys. Earth Plan. Int., 135, pp. 77-91, 2003.

[11] Macmillan S., S. Maus, T. Bondar, A. Chambodut, V. Golovkov, R. Holme, B. Langlais, V. Lesur, F. Lowes, H. Lühr, W. Mai, M. Mandea, N. Olsen, M. Rother, T. Sabaka, A. Thomson and I. Wardinski, The 9th-Generation International Geomagnetic Reference Field, Earth Planets Space, 55, 2003.

[10] Mandea M., and B. Langlais, Observatory crustal magnetic biases during MAGSAT and Ørsted satellite missions, Geophys. Res. Lett., 10.1029/2001GL013693, August 2002.

[9] Purucker M., B. Langlais, N. Olsen, G. Hulot, and M. Mandea, The southern edge of cratonic North America: evidence from new satellite magnetometer observations, Geophys. Res. Lett., 10.1029/2001GL013645, May 2002.

[8] Hulot G., C. Eymin, B. Langlais, M. Mandea, and N. Olsen, Small-scale structure of the geodynamo inferred from Ørsted and MAGSAT satellite data, Nature , 416, pp. 620-623, 2002.

[-] Mandea M., S. Macmillan, T. Bondar, V. Golovkov, B. Langlais, F. Lowes, N. Olsen, J. Quinn, and T. Sabaka, International geomagnetic reference field - 2000, eos , 82, pp. 347, 2001.

[7] Olsen N., R. Holme, G. Hulot, T. Sabaka, T. Neubert, L. Tøffner-Clausen, F. Primdahl, J. Jørgensen, J.M. Léger, D. Barraclough, J. Bloxham, J. Cain, C. Constable, V. Golovkov, A. Jackson, P. Kotzé, B. Langlais, S. Macmillan, M. Mandea, J. Merayo, L. Newitt, M. Purucker, T. Risbo, M. Stampe, A. Thompson and C. Voorhies, Ørsted Initial Field Model, Geophys. Res. Lett., 27, pp. 3607-3610, 2000.

[6] Mandea M., S. Macmillan, T. Bondar, V. Golovkov, B. Langlais, F. Lowes, N. Olsen, J. Quinn, and T. Sabaka, International geomagnetic reference field - 2000, Pure Appl. geophys., 157, pp. 1997-1802, 2000.

[5] Mandea M., S. Macmillan, T. Bondar, V. Golovkov, B. Langlais, F. Lowes, N. Olsen, J. Quinn, and T. Sabaka, International geomagnetic reference field - 2000, Phys. Earth Plan. Int., 120, pp. 39-42, 2000.

[4] Mandea M., S. Macmillan, T. Bondar, V. Golovkov, B. Langlais, F. Lowes, N. Olsen, J. Quinn, and T. Sabaka, International geomagnetic reference field - 2000, Geophys. J. Int., 141, pp. 259-262, 2000.

[3] Lowes F.J., T. Bondar, V.P. Golovkov, B. Langlais, S. Macmillan and M. Mandea, Evaluation of the candidate Main Field model for IGRF 2000 derived from preliminary Ørsted data, Earth Planets Space, 52, pp. 1183-1186, 2000.

[2] Mandea M., and B. Langlais, Use of Ørsted scalar data in evaluating the pre-Ørsted main field candidate models for the IGRF 2000, Earth Planets Space, 52, pp. 1167-1170, 2000.

[1] Langlais B., and M. Mandea, An IGRF candidate main geomagnetic field model for epoch 2000 and a secular variation model for 2000-2005, Earth Planets Space , 52, pp. 1137-1148, 2000.