Dr Sebastien Allgeyer
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Affiliations
Research area
- Climate & Ocean Geoscience, Member
Groups
- Environmental Geodesy, Visitor and affiliate
Research interests
- Natural Hazards (Tsunami, Earthquake, Landslide, ....)
- Satellite observation of Gravity field
- Numerical methods, High Performance Computing
- Inverse methods
- Data analysis, Data science
Projects
- Is the physics that we use to model deep ocean gravity wave sufficient?, Principal investigator
- Realistic tsunami modeling with seafloor loading and density stratification, Principal investigator
- Time-Reverse imaging of the tsunami source, Supervisor
Teaching information
Teaching:
- EMSC3033: Applied Geophysics, 2nd year, Lecture + Labs (2020)
- EMSC3032: Melting Polar Ice Sheets, Sea Level Variations and Climate Change, 3rd year, Computing labs (2016 & 2017)
Current student projects
Past student projects
- Ignatius Ryan P. (PhD, 2015 - 2019): Tsunami Hazard in Indonesia
- Duttetreya D. (Indian Institute of Technology, ANU FTR Award, 2019): Numerical modeling of tsunami generated by landslide
- Md Jakir H. (PhD, 2012-2014): Time Reverse Imaging of tsunami data
- Kellie S. (Princeton Summer student, 2016): Tide estimation using GRACE gravity mission data
Location
J3.162
Publications
- Allgeyer, S, Quentel, E, Hebert, H et al 2017, 'Tsunami Hazard in La Reunion Island (SW Indian Ocean): Scenario-Based Numerical Modelling on Vulnerable Coastal Sites', Pure and Applied Geophysics, vol. 174, no. 8, pp. 3123-3145pp.
- Tian, S, Tregoning, P, Renzullo, L et al 2017, 'Improved water balance component estimates through joint assimilation of GRACE water storage and SMOS soil moisture retrievals', Water Resources Research, vol. 53, no. 3, pp. 1820-1840pp.
- Koulali, A, McClusky, S, Wallace, L et al 2017, 'Slow slip events and the 2016 Te Araroa Mw 7.1 earthquake interaction: Northern Hikurangi subduction, New Zealand', Geophysical Research Letters, vol. 44, no. 16, pp. 8336-8344pp.
- Canitano, A, Bernard, P & Allgeyer, S 2017, 'Observation and modeling of the seismic seiches triggered in the Gulf of Corinth (Greece) by the 2011 Mw 9.0 Tohoku earthquake', Journal of Geodynamics, vol. 109, pp. 24-31pp.
- Baba, T, Allgeyer, S, Hossen, J et al 2017, 'Accurate numerical simulation of the far-field tsunami caused by the 2011 Tohoku earthquake, including the effects of Boussinesq dispersion, seawater density stratification, elastic loading, and gravitational potential change', Ocean Modelling, vol. 111, pp. 46-54pp.
- Kallenberg, B., Tregoning, P, Hoffmann, J. F., Purcell, A., Allgeyer, S. 2017, 'A new approach to estimate ice dynamic rates using satellite observations in East Antarctica', Cryosphere, vol. 11, no. 3, pp. 1235-1245.
- Hossen, M, Cummins, P, Roberts, S et al 2015, 'Time Reversal Imaging of the Tsunami Source', Pure and Applied Geophysics, vol. 172, no. 3-4, pp. 969-984.
- Allgeyer, S & Cummins, P 2014, 'Numerical tsunami simulation including elastic loading and seawater density stratification', Geophysical Research Letters, vol. 41, no. 7, pp. 2368-2375.
- Allgeyer, S, Hebert, H & Madariaga, R 2013, 'Modelling the tsunami free oscillations in the Marquesas (French Polynesia)', Geophysical Journal International, vol. 193, no. 3, pp. 1447-1459.
- Boudin, F, Allgeyer, S, Bernard, P et al 2013, 'Analysis and modelling of tsunami-induced tilt for the 2007, M=7.6, Tocopilla and the 2010, M=8.8 Maule earthquakes, Chile, from long-base tiltmeter and broadband seismometer records', Geophysical Journal International, vol. 194, no. 1, pp. 269-288.
- Allgeyer, S, Daubord, C, Hebert, H et al 2013, 'Could a 1755-Like Tsunami Reach the French Atlantic Coastline? Constraints from Twentieth Century Observations and Numerical Modeling', Pure and Applied Geophysics, vol. 170, no. 9-10, pp. 1415-1431.
- Hebert, H, Burg, P, Binet, R et al 2012, 'The 2006 July 17 Java (Indonesia) tsunami from satellite imagery and numerical modelling: A single or complex source?', Geophysical Journal International, vol. 191, no. 3, pp. 1255-1271.
- S. Allgeyer, C. Daubord, A. Loevenbruck, H. Hebert, F. Schindele, 2012, Could a 1755-like tsunami reach the French atlantic coastline ? Constraints from 20th century observations and numerical modeling, Pure and Applied Geophysics
- Roger, J, Baptista, M, Sahal, A et al 2011, 'The transoceanic 1755 Lisbon Tsunami in Martinique', Pure and Applied Geophysics, vol. 168, no. 6-7, pp. 1015-1031.
- Occhipinti, G, Coisson, P, Makela, J et al 2011, 'Three-dimensional numerical modeling of tsunami-related internal gravity waves in the Hawaiian atmosphere', Earth, Planets and Space, vol. 63, no. 7, pp. 847-851.
- Makela, J, Lognonne, P, Hebert, H et al 2011, 'Imaging and modeling the ionospheric airglow response over Hawaii to the tsunami generated by the Tohoku earthquake of 11 March 2011', Geophysical Research Letters, vol. 38, no. 24, pp. L00G02(1-5).
- G. Occhipinti , P. Coisson , J. J. Makela , S. Allgeyer, A. Kherani , H. Hebert & P. Lognonne, 2011, Three-dimensional numerical modeling of tsunami-related internal gravity waves in the Hawaiian atmosphere, Earth Planets Space
- J. J. Makela, P. Lognonne, H. Hebert, T. Gehrels, Rolland, S. Allgeyer, A. Kherani, G. Occhipinti, E. Astafyeva, P. Coïsson, A. Loevenbruck, E. Clevede, M. C. Kelley & J. Lamouroux, 2011, Imaging and modeling the ionospheric airglow response over Hawaii to the tsunami generated by the Tohoku earthquake of 11 March 2011, GRL
- J. Roger, M.A. Baptista, A. Sahal, S. Allgeyer & H. Hebert, 2009, The transoceanic 1755 Lisbon tsunami in the Martinique . Pure and Applied Geophysics, Proceedings of the International Tsunami Symposium, Novosibirsk, Russia
- J. Roger, S. Allgeyer, H. Hebert, M.A. Baptista, A. Loevenbruck & F. Schindele, 2010, The 1755 Lisbon tsunami in Guadeloupe Archipelago : source sensitivity and investigation of resonance effects . The Open Oceanography Journal
- Sahal, A, Roger, J, Allgeyer, S et al 2009, 'The tsunami triggered by the 21 May 2003 Boumerds-Zemmouri (Algeria) earthquake: Field investigations on the French mediterranean coast and tsunami modelling', Natural Hazards and Earth System Science, vol. 9, no. 6, pp. 1823-1834.