{"id":9,"date":"2014-06-13T23:18:38","date_gmt":"2014-06-14T06:18:38","guid":{"rendered":"http:\/\/carolinebeghein.com\/publications\/"},"modified":"2025-09-22T07:09:17","modified_gmt":"2025-09-22T14:09:17","slug":"publications","status":"publish","type":"page","link":"https:\/\/faculty.epss.ucla.edu\/~cbeghein\/research\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"

\"\"My Researcher ID is A-7516-2008<\/a>,<\/span>\u00a0my Google Scholar citations are here<\/a><\/strong><\/span>\u00a0and my ORCID ID is\u00a00000-0002-3158-2213<\/a><\/span>.<\/p>\n

Meeting abstracts are here.<\/a><\/em><\/strong><\/span><\/p>\n

Submitted Articles:<\/strong><\/h3>\n

* denotes student author under my supervision; ^ denotes postdoctoral scholar under my mentorship<\/span><\/p>\n

Beghein, C<\/strong>. and *Xu, H., Azimuthal Anisotropy From Multimode Waveform Modeling Reveals Layering Within the Antarctica Craton: Azimuthal Anisotropy under Antarctica, Seismica<\/em>, under revision<\/u><\/p>\n

*Weidner, E., Beghein, C.<\/strong>, ^Li, J., Azimuthally Anisotropic Phase Velocity Maps for Higher Mode Rayleigh Waves Across the Pacific, in prep.<\/p>\n

*Villa, V., Beghein, C., and Yao, H., Anisotropic Phase Velocity Maps of the NorthWestern Pacific From Ambient Noise Tomography, in prep<\/p>\n

Peer-Reviewed Articles:<\/strong><\/h3>\n

* denotes student author under my supervision<\/span>; ^ denotes postdoctoral scholar under my mentorship<\/span> – H index =18 (as of 02-2023. Note that this is affected by 2 years “off the clock” and one additional year of childrearing.<\/span><\/p>\n

40- Beghein, C. <\/strong>and Li, J., Seismic Anisotropy Layering in the Martian Lowlands Crust, PEPI<\/em>, in press. doi:10.1016\/j.pepi.2025.107453<\/a><\/p>\n

39- Fernando, B., Newman, C., Daubar, I., Beghein, C., Chabot, N.L., Irving, J.C.E., Johnson, C.L., Panning, M.P., Plesa, A.-C., Rivkin, A.S., Smerkar, S., and Banerdt, B. (2024), Evaluation of the InSightSeers and DART Boarders mission observer programmes, Nature Astronomy<\/em>, 8<\/strong>, 1521\u20131528, doi: 10.1038\/s41550-024-02434-1<\/a>. Open Access version here<\/a>.<\/p>\n

38- Maguire, R., Leki\u0107, V., Kim, D., Schmerr, N., Li, J., Beghein, C.<\/strong>, et al. (2023). Focal mechanism determination of event S1222a and implications for tectonics near the dichotomy boundary in southern Elysium Planitia, Mars. Journal of Geophysical Research: Planets<\/em>, 128<\/strong>, e2023JE007793. doi:10.1029\/2023JE007793<\/a><\/p>\n

37- Irving, J. et al. (2023), First observations of core-transiting seismic phases on Mars, PNAS<\/em>, 120<\/strong> (18) e2217090120, doi:10.1073\/pnas.2217090120<\/a><\/p>\n

36- Panning, M., Banerdt, W., Beghein, C.,<\/strong> Carrasco, S., Ceylan, S., Clinton, J., Davis, P., Drilleau, M., Giardini, D., Khan, A., Knapmeyer-Endrun, B., Kim, D., Li, J., Lognonn\u00e9, P., and St\u00e4hler, S.,\u00a0Zenh\u00e4usern, G. (2022), Locating the largest event observed on Mars with multi-orbit surface waves, Geophys. Res. Let., 50<\/b><\/span>,<\/span><\/em> 1, doi:10.1029\/2022GL101270<\/a><\/span><\/p>\n

35- ^Li., J., Beghein, C.<\/strong>, Lognonn\u00e9, P., McLennan, S., Wieczorek, M.A., Panning, M., Knapmeyer-Endrun, B., Davis, P., and Banerdt, W. (2022), Different Martian Crustal Seismic Velocities across the Dichotomy Boundary from Multi-Orbiting Surface Waves, Geophys. Res. Let<\/em>., 50<\/b><\/span>, 1, doi:10.1029\/2022GL101243<\/span><\/a><\/span><\/p>\n

34- ^<\/strong>Li, J., Beghein, C., <\/strong>McLennan, S.M., Lognonn\u00e9, P., Horleston, A.C., Charalambous, C., Huang, Q., Zenh\u00e4usern, G., Bozdag, E., Pike, T. W., Golombek M., Leki\u0107, V., Lognonn\u00e9, P., and Banerdt, W. (2022), Second Seismic Anchor Point of the Martian Crustal Structure Away From the InSight Landing Site,\u00a0Nature<\/em> Communications, <\/em>13<\/b><\/span>, 1<\/span>, doi:10.1038\/s41467-022-35662-y<\/span><\/a><\/span><\/p>\n

33- Beghein, C.<\/strong>, Li., J., Weidner, E., Maguire, R., Wookey, J., Lekic, V., Lognonn\u00e9, P., and Banerdt, W. (2022), Crustal Anisotropy in the Martian Lowlands from Surface Waves, Geophys. Res. Let., <\/em>49<\/strong>, 24, e2022GL101508, doi:10.1029\/2022GL101508<\/a><\/p>\n

32- Kim, D.,\u00a0Banerdt, W., Ceylan, S., Giardini, D., Lekic, V., Lognonn\u00e9, P.,\u00a0Beghein, C<\/b>., Beucler, E., et al. (2022), Surface Waves and Crustal Structure on Mars, Science<\/i>, 378<\/strong>, 6618, 417-421, doi:10.1126\/science.abq7157<\/a><\/p>\n

31- ^Li, J.,\u00a0Beghein, C.,\u00a0<\/b>Davis, P., Wieczorek, M., McLennan, S., Kim, D., Lekic, V., Golombek, M., Schimmel, M., Stutzmann, E., Lognonn\u00e9, P., and Banerdt, W. (2022), Crustal Structure Constraints From the Detection of the SsPp Phase on Mars, Earth and Space<\/i>, DOI: 10.1029\/2022EA002416<\/a><\/p>\n

30- Huang, Q., N.C. Schmerr1, S.D. King, D. Kim, A. Rivoldini, A. Plesa, H. Samuel, R.R. Maguire, F. Karakostas, V. Leki\u0107, C. Charalambous, M. Collinet, R. Myhill, D. Antonangeli, M. Drilleau, M. Bystricky, C. Bollinger, C. Michaut, T. Gudkova, J. C.E. Irving, A. Horleston, B. Fernando, K. Leng, T. Nissen-Meyer, F. Bejina, E. Bozda\u011f, C. Beghein<\/strong>, L. Waszek, N. C. Siersch, J.-R. Scholz, P. M. Davis, P. Lognonn\u00e9, B. Pinot, R. Widmer-Schnidrig, M. P. Panning, S. E. Smrekar, T. Spohn, D. Giardini, W. B. Banerdt (2022), Seismic detection of the Martian mantle transition zone by InSight, PNAS<\/em>, doi: 10.1073\/pnas.2204474119<\/a><\/p>\n

29- ^Li, J., Beghein, C.,<\/strong> Wookey, J., Davis, P., Lognonn\u00e9, P., Schimmel, M., Stutzmann, E., Golombek, M., Montagner, J.-P., and Banerdt, W. (2022), Evidence for Crustal Seismic Anisotropy at the InSight Lander Site, Earth Planet. Sc. Lett., <\/em>593<\/strong>, 117654, doi: 10.1016\/j.epsl.2022.117654<\/a><\/p>\n

28- Wieczorek, M.A., A. Broquet, S. Gyalay, C.L. Johnson, R. Joshi, D. Kim, S. D. King, B. Knapmeyer-Endrun, S. M. McLennan, C. Michaut, A. Mittelholz, F. Nimmo, L. Ojha, M. P. Panning, A. Plesa, A. Rivoldini, M. A. Siegler, T. Gudkova, C. Beghein<\/strong>, W. B. Banerdt (2022), InSight constraints on the global character of the Martian crust, J.\u00a0Geophys. Res. – Planets,<\/em> doi: 10.1029\/2022JE007298<\/a><\/p>\n

27- Horleston, A.C., J. F. Clinton, S. Ceylan, D. Giardini, C. Charalambous, J. C. E. Irving, P. Lognonn\u00e9, S. C. St\u00e4hler, G. Zenh\u00e4usern, N. L. Dahmen, C. Duran, T. Kawamura, A. Khan, D. Kim, M. Plasman, C. Beghein<\/strong>, \u00c9. Beucler, Q. Huang, M. Knapmeyer, V. Lekic, J. Li, C. Perrin, M. Schimmel, N. Schmerr, A. E. Stott, E. Stutzmann, N. Teanby, Z. Xu, M. Panning and W. B. Banerdt (2022), The Far Side of Mars: Two Distant Marsquakes Detected by InSight, The Seismic Record,\u00a0<\/em>2 <\/strong>(2): 88\u201399. doi: 10.1785\/0320220007<\/a>.<\/p>\n

26-Huang, Q., Schmerr, N., Beghein, C.<\/strong>,<\/strong> Waszek, L., and Maguire, R. (2022), 3-D Synthetic Modeling of Anisotropy Effects on SS Precursors: Implications for Mantle Flow in the Transition Zone, Geophys. J. Int<\/em>., doi:10.1093\/gji\/ggab529<\/a><\/p>\n

25-*Weidner, E., Beghein, C<\/strong>., Huang, Q., and Schmerr, N. (2022), Upper Mantle Radial Anisotropy Under the Indian Ocean from Higher Mode Surface Waves and a Hierarchical Transdismensional Approach, Geophys. J. Int.<\/em>,\u00a0228<\/b>(1), 78-101, doi:10.1093\/gji\/ggab340<\/a>– preprint pdf here<\/a> and supplementary material here<\/a>.<\/p>\n

24-*Xu, H., Beghein, C.<\/b>,\u00a0 Panning, M.P., Drilleau, M., Lognonn\u00e9, P., van Driel, M., Ceylan, S., B\u00f6se, M., Brinkman, N., Clinton, J., Euchner, F., Giardini, D., Horleston, A., Kawamura, T., Kenda, B., Murdoch, N., and St\u00e4hler, S. (2020), Measuring Fundamental and Higher Mode Surface Wave Dispersion on Mars From Seismic Waveforms,\u00a0Earth and Space Science<\/i>,\u00a08<\/span><\/strong>, e2020EA001263, doi:10.1029\/2020EA001263<\/a><\/p>\n

23- Fischer, K., Rychert, C.A., Dalton, C.A., Miller, M.S., Beghein, C.<\/strong>, and Schutt, D. (2020),\u00a0A Comparison of Oceanic and Continental Mantle Lithosphere, PEPI<\/em>, 309<\/strong>, doi:10.1016\/j.pepi.2020.106600<\/a>\u00a0– PDF<\/a><\/p>\n

22-Drilleau, M., Beucler, E., Lognonn\u00e9,P., Panning, M.P., Knapmeyer-Endrun, B. Banerdt, W.B., Beghein, C.<\/b>,\u00a0 Ceylan, S., van Driel, M., Joshi, R., Kawamura,T., Khan, A., Menina, S., Rivoldini, A., Samuel, H., Stahler, S., Xu, H., Bonnin, M., Clinton, J., Giardini, D., Kenda, B., Lekic, V., Mocquet, A., Murdoch, N., Schimmel, M., Smrekar, S.E., Stutzmann, E., Tauzin, B., Tharimena, S. (2020), MSS\/1: Single-station and single-event marsquake inversion, J. Geophys. Res.-ESS<\/i>, 7<\/strong> (12), e2020EA001118, doi:10.1029\/2020EA001118 – PDF preprint<\/a><\/p>\n

21-Banerdt, W., S. Smrekar, D. Banfield, D. Giardini, M. Golombek, C. Johnson, P. Lognonn\u00e9, A. Spiga, T. Spohn, C. Perrin, S. St\u00e4hler, D. Antonangeli, S. Asmar, C. Beghein<\/b>, N. Bowles, E. Bozdag, P. Chi, U. Christensen, J. Clinton, G. Collins, I. Daubar, V. Dehant, M. Drilleau, M. Fillingim, W. Folkner, R. Garcia, J. Garvin, J. Grant, M. Grott, J. Grygorczuk, T. Hudson, J. Irving, G. Kargl, T. Kawamura, S. Kedar, S. King, B. Knapmeyer-Endrun, M. Knapmeyer, M. Lemmon, R. Lorenz, J. Maki, L. Margerin, S. McLennan, C. Michaut, D. Mimoun, A. Mittelholz, A. Mocquet, P. Morgan, N. Mueller, N. Murdoch, S. Nagihara, C. Newman, F. Nimmo, M. Panning, W. Pike, A.-C. Plesa, S. Rodriguez, J. Rodriguez-Manfredi, C. Russell, N. Schmerr, M. Siegler, S. Stanley, E. Stutzmann, N. Teanby, J. Tromp, M. van Driel, N. Warner, R. Weber, and M. Wieczorek (2020), Initial results from the InSight mission on Mars,\u00a0<\/span>Nature Geoscience<\/em><\/span>, 13<\/b>,\u00a0<\/span>183\u2013189, doi:10.1038\/s41561-020-0544-y<\/a>\u00a0– PDF<\/a><\/p>\n

20-Lognonn\u00e9, W. Banerdt, W. Pike, D. Giardini, U. Christensen, R. Garcia, T. Kawamura, S. Kedar, B. Knapmeyer-Endrun, L. Margerin, F. Nimmo, M. Panning, B. Tauzin, J.-R. Scholz, D. Antonangeli, S. Barkaoui, E. Beucler, F. Bissig, N. Brinkman, M. Calvet, S. Ceylan, C. Charalambous, P. Davis, M. van Driel, M. Drilleau, L. Fayon, R. Joshi, B. Kenda, A. Khan, M. Knapmeyer, V. Leki\u0107, J. McClean, D. Mimoun, N. Murdoch, L. Pan, C. Perrin, B. Pinot, L. Pou, S. Menina, S. Rodriguez, C. Schmelzbach, N. Schmerr, D. Sollberger, A. Spiga, A. St\u00e4hler, A. Stott, E. Stutzmann,\u00a0S. Tharimena, R. Widmer-Schnidrig, F. Andersson, V. Ansan,\u00a0<\/span>C. Beghein<\/strong>, M. B\u00f6se, E. Bozdag, J. Clinton, I. Daubar, P. Delage, N. Fuji, M. Golombek, M. Grott, A. Horleston, K. Hurst, J. Irving, A. Jacob, J. Knollenberg, S. Krasner, C. Krause, R. Lorenz, C. Michaut, R. Myhill, T. Nissen-Meyer, J. ten Pierick, A-C. Plesa, C. Quantin-Nataf, J. Robertsson, L. Rochas, M. Schimmel, S. Smrekar, T. Spohn, N. Teanby, J. Tromp, J. Vallade, N. Verdier, C. Vrettos, R. Weber, D. Banfield, E. Barrett, M. Bierwirth, S. Calcutt, N. Compaire, C. Johnson, D. Mance, F. Euchner, L. Kerjean, G. Mainsant, A. Mocquet, J. Rodriguez-Manfredi, G. Pont, P. Laudet, T. Nebut, S. de Raucourt, O. Robert, C. Russell, A.\u00a0Sylvestre-Baron, S. Tillier, T. Warren, M. Wieczorek, C. Yana, and P. Zweifel (2020), Constraints on the shallow elastic and anelastic structure of Mars from InSight seismic data,\u00a0<\/span>Nature Geoscience<\/em><\/span>, 13<\/b>,\u00a0<\/span>213\u2013220,\u00a0<\/span>doi:10.1038\/s41561-020-0536-y<\/a>\u00a0 –PDF<\/a><\/p>\n

19-Huang, Q., Schmerr, N., Waszek, L., and\u00a0Beghein, C. <\/strong>(2019), Constraints\u00a0on Seismic Anisotropy in the Mantle Transition Zone from Long-Period SS Precursors, J. Geophys. Res<\/em><\/i>., 124<\/strong>(6), 6779-6800, doi:10.1029\/2019JB017307<\/a>\u00a0– PDF<\/a><\/p>\n

18- *Xu, H. and Beghein, C.\u00a0<\/strong>(2019),\u00a0Measuring Higher-Mode Surface Wave Dispersion Using a Transdismensional Bayesian Approach,\u00a0Geophys. J. Int<\/em>., 218<\/strong> (1), 333-353, doi:10.1093\/gji\/ggz133<\/a>\u00a0(preprint\u00a0<\/span>doi:10.17605\/OSF.IO\/A7CVK<\/a>)<\/p>\n

17- Beghein, C.<\/strong>, *Xing, Z., and Goes, S. (2019), Thermal Nature and Resolution of the Lithosphere-Asthenosphere Boundary Under the Pacific From Surface Waves,\u00a0Geophys. J. Int<\/em>., 216<\/strong>, 1441\u20131465, doi:10.1093\/gji\/ggy490<\/a> (preprint here<\/strong><\/a>)<\/p>\n

16- *Yuan, K. and\u00a0Beghein, C<\/strong>. (2018), A\u00a0Bayesian Method to Quantify Azimuthal Anisotropy Model Uncertainties: Application to Global Azimuthal Anisotropy in the Upper Mantle and Transition Zone,\u00a0Geophys. J. Int<\/em>., 213<\/strong>(1), 603\u2013622, doi:10.1093\/gji\/ggy004<\/a>\u00a0(preprint\u00a0<\/span>doi:10.17605\/OSF.IO\/VFZCB<\/a>) – reprint<\/a><\/p>\n

15-\u00a0*Xing, Z. and\u00a0Beghein, C<\/strong>. (2015), A Bayesian Approach to Assess the Importance of Crustal Corrections in Global Anisotropic Surface Wave Tomography,\u00a0Geophys. J. Int<\/em>., 203<\/strong><\/span>(3),\u00a0<\/span>1832-1846,\u00a0<\/span>doi:10.1093\/gji\/ggv401<\/a>\u00a0– reprint<\/a><\/p>\n

14- *Yuan, K. and\u00a0Beghein, C<\/strong>. (2014), Three-dimensional variations in Love and Rayleigh wave azimuthal anisotropy for the upper 800 km of the mantle, Journal of Geophysical Research-Solid Earth<\/em>,\u00a0119<\/strong>(4), 3232-3255, doi:10.1002\/2013JB010853<\/a>–\u00a0preprint<\/a>\u00a0and\u00a0Supplement<\/a>\u00a0– preprint<\/a><\/p>\n

13- Beghein, C<\/strong>., *Yuan, K., Schmerr, N., and *Xing, Z. (2014), Changes in seismic anisotropy shed light on the nature of the Gutenberg discontinuity, Science<\/em><\/span>, 343<\/strong>(6176), 1237-1240, doi:10.1126\/science.1246724<\/a>\u00a0–\u00a0Supplementary Material\u00a0<\/a>(42 pages) – reprint<\/a> –\u00a0UCLA press release<\/a>\u00a0– Article usage\u00a0stats<\/a><\/p>\n

12- *Yuan, K., and\u00a0Beghein, C<\/strong>. (2013), Seismic anisotropy changes across upper mantle phase transitions, Earth and Planet. Sci. Lett<\/em>., 374<\/strong>, 132-144,\u00a0doi:10.1016\/j.epsl.2013.05.031<\/a>\u00a0– Supplementary Online\u00a0Material<\/a>\u00a0– Article usage\u00a0report<\/a>\u00a0– preprint<\/a><\/p>\n

11- *Stubailo, I.,\u00a0Beghein, C<\/strong>., Davis, P. (2012),\u00a0 Structure and anisotropy of the Mexico subduction zone based on Rayleigh-wave analysis and implications for the geometry of the Trans-Mexican Volcanic Belt, J. Geophys. Res<\/em>., 117<\/strong>, B5, B05303,\u00a0doi:10.1029\/2011JB008631<\/a>\u00a0– An edited version of this paper was published by AGU. Copyright (2006) American Geophysical Union –\u00a0preprint<\/a><\/p>\n

10- Beghein, C<\/strong>. (2010), Radial anisotropy and prior petrological constraints: a comparative study, J. Geophys. Res<\/em>., 115<\/strong>, B03303,\u00a0doi: 10.1029\/2008JB005842<\/a>\u00a0– An edited version of this paper was published by AGU. Copyright (2006) American Geophysical Union –\u00a0preprint<\/a><\/p>\n

9- Beghein, C<\/strong>., Snoke, J.A., and Fouch, M.J. (2010), Depth Constraints on Azimuthal Anisotropy in the Great Basin from Rayleigh Wave Phase Velocity Maps, Earth Planet. Sci. Lett<\/em>., 289<\/strong>, 467-478,\u00a0doi:10.1016\/j.epsl.2009.11.036<\/a>\u00a0–\u00a0preprint<\/a><\/p>\n

8- Beghein, C<\/strong>., Resovsky, J., and van der Hilst, R.D. (2008), The signal of mantle anisotropy in the coupling of normal modes, Geophys. J. Int<\/em>., 175<\/strong>, 1209-1234,\u00a0doi:10.1111\/j.1365-246X.2008.03970.x<\/a>\u00a0–\u00a0reprint<\/a><\/p>\n

7- Yao, H.,\u00a0Beghein, C<\/strong>., and van der Hilst, R.D. (2008), Surface-wave array tomography in SE Tibet from ambient seismic noise and two-station analysis: II – Crust and upper mantle structure, Geophys. J. Int<\/em>., 173<\/strong> (1), 205-219,\u00a0doi:10.1111\/j.1365-246X.2007.03696.x<\/a>\u00a0–\u00a0reprint<\/a><\/p>\n

6- Sambridge, M.,\u00a0Beghein, C<\/strong>., Simons, F.J., and Snieder, R. (2006), How do we understand and visualize uncertainty?, The Leading Edge<\/em>, 25<\/strong>, 542-546,\u00a0doi:10.1190\/1.2202654<\/a>\u00a0–\u00a0reprint<\/a><\/p>\n

5- Beghein, C<\/strong>., Trampert, J., and H.J. van Heijst (2006), Radial anisotropy in reference models of the mantle, J. Geophys. Res<\/em>., 111<\/strong>, B02303,\u00a0doi:10.1029\/2005JB003728<\/a>\u00a0– An edited version of this paper was published by AGU. Copyright (2006) American Geophysical Union –\u00a0preprint<\/a><\/p>\n

4- Beghein, C<\/strong>., and Trampert, J. (2004), Probability density functions for radial anisotropy: implications for the upper 1200 km of the mantle, Earth Planet. Sci. Lett<\/em>., 217<\/strong>(1-2), 151-162,\u00a0doi:10.1016\/S0012-821X(03)00575-2<\/a>\u00a0–\u00a0preprint<\/a><\/p>\n

3- Beghein, C<\/strong>., and Trampert, J. (2004), Probability density function for radial anisotropy from fundamental mode surface wave data and the Neighbourhood Algorithm, Geophys. J. Int<\/em>., 157<\/strong>(3), 1163-1174,\u00a0doi:10.1111\/j.1365-246X.2004.02235.x<\/a>\u00a0–\u00a0reprint<\/a><\/p>\n

2- Beghein, C<\/strong>., and Trampert, J. (2003), Robust normal mode constraints on inner core anisotropy from model space search, Science<\/span><\/em>, 299<\/strong>, 552-555,\u00a0doi:10.1126\/science.1078159<\/a>\u00a0–\u00a0reprint<\/a>\u00a0–\u00a0Supplementary material<\/a><\/p>\n

1- Beghein, C<\/strong>., Resovsky, J., and Trampert, J. (2002), P and S tomography using normal mode and surface wave data with a Neighbourhood Algorithm, Geophys. J. Int.<\/em>, 149<\/strong>(3), 646-658,\u00a0doi:10.1046\/j.1365-246X.2002.01684.x<\/a>\u00a0–\u00a0reprint<\/a><\/p>\n

 <\/p>\n

Reports\u00a0<\/strong><\/h3>\n

5<\/strong>–\u00a0Neal, C., Weber, R., Amato, M.J., Seas, A., Banerdt, W.B., Beghein, C.<\/strong>, Bergman, D., Chi, P., Currie, D.,\u00a0Dell\u2019Agnello, S., Delory, G., Espley, J., Garcia, R., Garrick-Bethell, I., Grimm, R., Grott, M., Haviland, H.,\u00a0Indyk, S., Johnson, C., Kawamura, T., Kedar, S., Lognonn\u00e9, P., Nagihara, S., Nunn, C., Ostrach, L., Panning,\u00a0M., Petro, N., Schmerr, N., Siegler, M., Watters, T., Wellnitz, D., Wieczorek, M., Williams, J., Wu, C.,\u00a0Zacny , K. (2020), \u201cThe Lunar Geophysical Network, Final Report\u201d, submitted in response to\u00a0NNH18ZDA001N-PMCS: Planetary Mission Concept Studies<\/p>\n

4. Weber, R., Neal, C. R., Grimm, R., Grott, M., Schmerr, N., Wieczorek, M., J. Williams, B. Banerdt, C.\u00a0<\/strong>Beghein<\/strong>, P. Chi, D. Currie, S. Dell’Agnello, J. Espley, R. Garcia, I. Garrick-Bethell, H. Haviland, S. Indyk, C.\u00a0Johnson, T. Kawamura, S. Kedar, P. Lognonn\u00e9, S. Nagihara, Y. Nakamura, C. Nunn, L. R. Ostrach, M.\u00a0Panning, N. Petro, M. Siegler, T. Watters, K. Zacny, S. Hop Bailey, M. Banks, D. Barker, H. Bernhardt, V.\u00a0Bickel, J. Cahill, J. Clark, D. DellaGiustina, J.-L. Dimech, A. Dombard, C. Elder, L. Elkins-Tanton, M.\u00a0Eubanks, K. Donaldson Hanna, J. Harms, S. Hauck, L. Hood, J. Hurtado, Jr., S. Jacobson, D. Jha, J. Tuttle\u00a0Keane, A. Khan, W. Kiefer, M. Knapmeyer, B. Knapmeyer-Endrun, K. Khurana, J. Lorenzo, A. Marusiak, P.\u00a0McGovern, L. Montesi, F. Nimmo, D. Phillips, J. Richardson, C. Shearer, K. Soderlund, S. C. Solomon, T.\u00a0Spohn, E. Stutzmann, S. Tikoo, S. Turyshev, D. Waller, R. Yamada, and M. Zuber (2020), \u201cThe scientific\u00a0rationale for deployment of a long-lived geophysical network on the Moon\u201d, Bulletin of the AAS, 53(4),\u00a0doi:10.3847\/25c2cfeb.674dcfdf<\/a><\/p>\n

3- Beghein, C<\/b>., Snoke, J.A., and Fouch, M.J. (2010), \u201cAnisotropy in the Great Basin from Rayleigh Wave Phase Velocity Maps\u201d, in 2010 IRIS Core Programs Proposal<\/em><\/a>, Vol. II, Lithosphere, Lithosphere\/Asthenosphere Boundary, p. II-165<\/p>\n

2- Beghein, C<\/b>. (2010), \u201cEffect of Prior Petrological Constraints on Global Upper Mantle Models of Radial Anisotropy\u201d, in 2010 IRIS Core Programs Proposal<\/em><\/a>, Vol. II, Upper Mantle Structure and Dynamics, p. II-183<\/p>\n

1- Beghein, C.<\/b>, Resovsky, J., and van der Hilst, R.D. (2010), \u201cGlobal Mantle Anisotropy and the Coupling of Free Oscillations\u201d, in 2010 IRIS Core Programs Proposal<\/em><\/a>, Vol. II, Whole Mantle Structure, p. II-246<\/p>\n","protected":false},"excerpt":{"rendered":"

My Researcher ID is A-7516-2008,\u00a0my Google Scholar citations are here\u00a0and my ORCID ID is\u00a00000-0002-3158-2213. Meeting abstracts are here. Submitted Articles: * denotes student author under my supervision; ^ denotes postdoctoral scholar under my mentorship Beghein, C. and *Xu, H., Azimuthal Anisotropy From Multimode Waveform Modeling Reveals Layering Within the Antarctica Craton: Azimuthal Anisotropy under Antarctica, … <\/p>\n

Read more “Publications”<\/span><\/a><\/p>\n","protected":false},"author":2,"featured_media":1789,"parent":138,"menu_order":50,"comment_status":"closed","ping_status":"closed","template":"","meta":{"inspiro_hide_title":false,"footnotes":""},"class_list":["post-9","page","type-page","status-publish","has-post-thumbnail","hentry"],"jetpack_sharing_enabled":false,"featured_media_urls":{"thumbnail":["https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-content\/uploads\/2014\/06\/AA293037_1230pxl-150x150.jpg",150,150,true],"medium":["https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-content\/uploads\/2014\/06\/AA293037_1230pxl-300x225.jpg",300,225,true],"medium_large":["https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-content\/uploads\/2014\/06\/AA293037_1230pxl-768x576.jpg",768,576,true],"large":["https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-content\/uploads\/2014\/06\/AA293037_1230pxl-1024x768.jpg",950,713,true],"1536x1536":["https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-content\/uploads\/2014\/06\/AA293037_1230pxl-1536x1152.jpg",1536,1152,true],"2048x2048":["https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-content\/uploads\/2014\/06\/AA293037_1230pxl.jpg",1640,1230,false],"inspiro-featured-image":["https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-content\/uploads\/2014\/06\/AA293037_1230pxl.jpg",1640,1230,false],"inspiro-loop":["https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-content\/uploads\/2014\/06\/AA293037_1230pxl-950x320.jpg",950,320,true],"inspiro-loop@2x":["https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-content\/uploads\/2014\/06\/AA293037_1230pxl-1640x640.jpg",1640,640,true],"portfolio_item-thumbnail":["https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-content\/uploads\/2014\/06\/AA293037_1230pxl-600x400.jpg",600,400,true],"portfolio_item-thumbnail@2x":["https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-content\/uploads\/2014\/06\/AA293037_1230pxl-1200x800.jpg",1200,800,true],"portfolio_item-masonry":["https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-content\/uploads\/2014\/06\/AA293037_1230pxl-600x450.jpg",600,450,true],"portfolio_item-masonry@2x":["https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-content\/uploads\/2014\/06\/AA293037_1230pxl-1200x900.jpg",1200,900,true],"portfolio_item-thumbnail_cinema":["https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-content\/uploads\/2014\/06\/AA293037_1230pxl-800x335.jpg",800,335,true],"portfolio_item-thumbnail_portrait":["https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-content\/uploads\/2014\/06\/AA293037_1230pxl-600x900.jpg",600,900,true],"portfolio_item-thumbnail_portrait@2x":["https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-content\/uploads\/2014\/06\/AA293037_1230pxl-1200x1230.jpg",1200,1230,true],"portfolio_item-thumbnail_square":["https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-content\/uploads\/2014\/06\/AA293037_1230pxl-800x800.jpg",800,800,true]},"_links":{"self":[{"href":"https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-json\/wp\/v2\/pages\/9","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-json\/wp\/v2\/users\/2"}],"replies":[{"embeddable":true,"href":"https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-json\/wp\/v2\/comments?post=9"}],"version-history":[{"count":111,"href":"https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-json\/wp\/v2\/pages\/9\/revisions"}],"predecessor-version":[{"id":3266,"href":"https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-json\/wp\/v2\/pages\/9\/revisions\/3266"}],"up":[{"embeddable":true,"href":"https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-json\/wp\/v2\/pages\/138"}],"wp:featuredmedia":[{"embeddable":true,"href":"https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-json\/wp\/v2\/media\/1789"}],"wp:attachment":[{"href":"https:\/\/faculty.epss.ucla.edu\/~cbeghein\/wp-json\/wp\/v2\/media?parent=9"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}