Agius, M.R., S. Lebedev, 2017. Complex, multilayered azimuthal anisotropy beneath Tibet: evidence for co-existing channel flow and pure-shear crustal thickening. Geophys. J. Int, 210(3), 1823-1844.
Cammarano, F., and M. Guerri, 2017. Global thermal models of the lithosphere. Geophys. J. Int. 210, 56-72.
Delhaye, R., V. Rath, A.G. Jones, M.R. Muller and D. Reay, 2017. Correcting for static shift of magnetotelluric data with airborne electromagnetic measurements: a case study from Rathlin Basin, Northern Ireland, Solid Earth, 8, 637-660, doi:10.5194/se-8-637-2017.
Eibl, E.P.S., C.J. Bean, I. Jónsdóttir, A. Höskuldsson, T. Thordarson, D. Coppola, T. Witt, T. R. Walter, 2017. Multiple Coincident Eruptive Seismic Tremor Sources During the 2014-2015 Eruption at Holuhraun, Iceland, Journal of Geophysical Research: Solid Earth 122, DOI: 10.1002/2016JB013892.
Eibl, E.P.S., I. Lokmer, C.J. Bean, E. Akerlie, 2017. Helicopter Location and Tracking using Seismometer Recordings, Geophysical Journal International 209 (2): 901-908, DOI: 10.1093/gji/ggx048.
Eibl, E.P.S., C.J. Bean, K.S. Vogfjörd, Y. Ying, I. Lokmer, M. Möllhoff, G.S. O’Brien, F. Pálsson, 2017. Tremor- rich shallow dyke formation followed by silent magma flow at Bárdarbunga in Iceland, Nature Geoscience 10 (4), 299-304, DOI: 10.1038/NGEO2906.
Einspigel, D., and Z. Martinec, 2017. Time-domain modeling of global ocean tides generated by the full lunisolar potential. Ocean Dynamics, 67, 165–189.
Fullea, J., 2017. On joint modelling of electrical conductivity and other geophysical and petrological observables to infer the structure of the lithosphere and underlying upper mantle. Surveys in Geophysics 38, 963-1004.
Jones, A.G., J.C. Afonso, and J. Fullea, 2017. Geochemical and geophysical constrains on the dynamic topography of the Southern African Plateau. Geochemistry, Geophysics, Geosystems 18, 3556-3575.
Kiyan D., V. Rath and R. Delhaye, 2017. An inversion toolbox for frequency- and time-domain airborne electromagnetic data from surveys in Ireland. EAGE, Near Surface Geoscience Conference & Exhibition, Second European Airborne Electromagnetics, Malmo, Sweden, 3-7 September, doi:10.3997/2214- 4609.201702178.
Lebedev, S., A.J. Schaeffer, J. Fullea, and V. Pease, 2017. Seismic tomography of the Arctic region: inferences for the thermal structure and evolution of the lithosphere. In Pease, V. & Coakley, B. (eds.) Circum-Arctic Lithosphere Evolution. Geological Society, London, Special Publications, 460, SP460-10.
Le Pape, F., A.G. Jones, M.W. Jessell, S. Perrouty, L.A. Gallardo, L. Baratoux, C. Hogg, L. Siebenaller, A. Touré, P. Ouiya and G. Boren, 2017. Crustal structure of southern Burkina Faso inferred from magnetotelluric, gravity and magnetic data, Precambrian Research, 300, 261-272.
Licciardi, A. and N. Piana Agostinetti, 2017. Sedimentary basin exploration with receiver functions: seismic structure and anisotropy of the Dublin Basin (Ireland), Geophysics, 82 (4), doi:10.1190/geo2016-0471.1.
Pellet, L., P. Christodoulides, S. Donne, C.J. Bean, F. Dias, 2017. Pressure induced by the interaction of water waves with nearly equal frequencies and nearly opposite directions, Theoretical and Applied Mechanics Letters (7) 3, 138-144, DOI: 10.1016/j.taml.2017.04.002.
Piana Agostinetti, N., A. Licciardi, D. Piccinini, F. Mazzarini, G. Musumeci, G. Saccorotti and C. Chiarabba, 2017. Discovering geothermal supercritical fluids: a new frontier for seismic exploration, Scientific Reports, 7, 14592, doi:10.1038/s41598-017-15118-w.
Piana Agostinetti, N., G. Giacomuzzi, and C. Chiarabba, 2017. Seismic swarms and diffuse fracturing within Triassic evaporites fed by deep degassing along the low-angle Alto Tiberina normal fault (central Apennines, Italy), J. Geophys. Res., 122, 308-331, doi:10.1002/2016JB013295.
Prada, M., F. Lavoué, B. O’Reilly, S. Lebedev, Y.O. Yuan, C. Gras, 2017. High-resolution seismic velocity structure of the shallow Porcupine Basin from traveltime tomography and waveform inversion of long-streamer data. In AAPG/ SEG ICE Extended Abstracts, London, 2017.
Prada, M., L. Watremez, C. Chen, B.M. O’Reilly, T.A. Minshull, T.J. Reston, P. Shannon, D. Klaeschene, G. Wagner and V. Gaw, 2017. Crustal strain-dependent serpentinisation in the Porcupine Basin, offshore Ireland. Earth and Planetary Science Letters, 474, 148-159. http://dx.doi.org/10.1016/j.epsl.2017.06.040.
Ravenna, M., S. Lebedev, 2017. Bayesian inversion of surface-wave data for radial and azimuthal shear-wave anisotropy, with applications to central Mongolia and west-central Italy. Geophys. J. Int., ggx497, https://doi.org/10.1093/gji/ggx497.
Vanicek, P., P. Novak, M. Sheng, R. Kingdon, J. Janak, I. Foroughi, Z. Martinec, and M. Santos, 2017. Does Poisson’s downward continuation give physically meaningful results? Studia Geophys. Geod., 61, 412–428.
Watremez, L., M. Prada., T. Minshull., B. O’Reilly., C. Chen., T. Reston., P. Shannon., G. Wagner., V. Gaw., D. Klaeschen., R. Edwards and S. Lebedev, 2017. Deep structure of the Porcupine Basin from wide-angle seismic data. In: Bowman, M. & Levell, B. (eds) Petroleum Geology of NW Europe: 50 Years of Learning – Proceedings of the 8th Petroleum Geology Conference Geological Society, London, Petroleum Geology Conference series, 8. First published online 27 October 2016. https://dx. doi.org/10.1144/PGC8.26.
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Last Updated: 24th October 2018 by Louise Collins
Publications 2017
Agius, M.R., S. Lebedev, 2017. Complex, multilayered azimuthal anisotropy beneath Tibet: evidence for co-existing channel flow and pure-shear crustal thickening. Geophys. J. Int, 210(3), 1823-1844.
Cammarano, F., and M. Guerri, 2017. Global thermal models of the lithosphere. Geophys. J. Int. 210, 56-72.
Delhaye, R., V. Rath, A.G. Jones, M.R. Muller and D. Reay, 2017. Correcting for static shift of magnetotelluric data with airborne electromagnetic measurements: a case study from Rathlin Basin, Northern Ireland, Solid Earth, 8, 637-660, doi:10.5194/se-8-637-2017.
Eibl, E.P.S., C.J. Bean, I. Jónsdóttir, A. Höskuldsson, T. Thordarson, D. Coppola, T. Witt, T. R. Walter, 2017. Multiple Coincident Eruptive Seismic Tremor Sources During the 2014-2015 Eruption at Holuhraun, Iceland, Journal of Geophysical Research: Solid Earth 122, DOI: 10.1002/2016JB013892.
Eibl, E.P.S., I. Lokmer, C.J. Bean, E. Akerlie, 2017. Helicopter Location and Tracking using Seismometer Recordings, Geophysical Journal International 209 (2): 901-908, DOI: 10.1093/gji/ggx048.
Eibl, E.P.S., C.J. Bean, K.S. Vogfjörd, Y. Ying, I. Lokmer, M. Möllhoff, G.S. O’Brien, F. Pálsson, 2017. Tremor- rich shallow dyke formation followed by silent magma flow at Bárdarbunga in Iceland, Nature Geoscience 10 (4), 299-304, DOI: 10.1038/NGEO2906.
Einspigel, D., and Z. Martinec, 2017. Time-domain modeling of global ocean tides generated by the full lunisolar potential. Ocean Dynamics, 67, 165–189.
Fullea, J., 2017. On joint modelling of electrical conductivity and other geophysical and petrological observables to infer the structure of the lithosphere and underlying upper mantle. Surveys in Geophysics 38, 963-1004.
Jones, A.G., J.C. Afonso, and J. Fullea, 2017. Geochemical and geophysical constrains on the dynamic topography of the Southern African Plateau. Geochemistry, Geophysics, Geosystems 18, 3556-3575.
Kiyan D., V. Rath and R. Delhaye, 2017. An inversion toolbox for frequency- and time-domain airborne electromagnetic data from surveys in Ireland. EAGE, Near Surface Geoscience Conference & Exhibition, Second European Airborne Electromagnetics, Malmo, Sweden, 3-7 September, doi:10.3997/2214- 4609.201702178.
Lebedev, S., A.J. Schaeffer, J. Fullea, and V. Pease, 2017. Seismic tomography of the Arctic region: inferences for the thermal structure and evolution of the lithosphere. In Pease, V. & Coakley, B. (eds.) Circum-Arctic Lithosphere Evolution. Geological Society, London, Special Publications, 460, SP460-10.
Le Pape, F., A.G. Jones, M.W. Jessell, S. Perrouty, L.A. Gallardo, L. Baratoux, C. Hogg, L. Siebenaller, A. Touré, P. Ouiya and G. Boren, 2017. Crustal structure of southern Burkina Faso inferred from magnetotelluric, gravity and magnetic data, Precambrian Research, 300, 261-272.
Licciardi, A. and N. Piana Agostinetti, 2017. Sedimentary basin exploration with receiver functions: seismic structure and anisotropy of the Dublin Basin (Ireland), Geophysics, 82 (4), doi:10.1190/geo2016-0471.1.
Pellet, L., P. Christodoulides, S. Donne, C.J. Bean, F. Dias, 2017. Pressure induced by the interaction of water waves with nearly equal frequencies and nearly opposite directions, Theoretical and Applied Mechanics Letters (7) 3, 138-144, DOI: 10.1016/j.taml.2017.04.002.
Piana Agostinetti, N., A. Licciardi, D. Piccinini, F. Mazzarini, G. Musumeci, G. Saccorotti and C. Chiarabba, 2017. Discovering geothermal supercritical fluids: a new frontier for seismic exploration, Scientific Reports, 7, 14592, doi:10.1038/s41598-017-15118-w.
Piana Agostinetti, N., G. Giacomuzzi, and C. Chiarabba, 2017. Seismic swarms and diffuse fracturing within Triassic evaporites fed by deep degassing along the low-angle Alto Tiberina normal fault (central Apennines, Italy), J. Geophys. Res., 122, 308-331, doi:10.1002/2016JB013295.
Prada, M., F. Lavoué, B. O’Reilly, S. Lebedev, Y.O. Yuan, C. Gras, 2017. High-resolution seismic velocity structure of the shallow Porcupine Basin from traveltime tomography and waveform inversion of long-streamer data. In AAPG/ SEG ICE Extended Abstracts, London, 2017.
Prada, M., L. Watremez, C. Chen, B.M. O’Reilly, T.A. Minshull, T.J. Reston, P. Shannon, D. Klaeschene, G. Wagner and V. Gaw, 2017. Crustal strain-dependent serpentinisation in the Porcupine Basin, offshore Ireland. Earth and Planetary Science Letters, 474, 148-159. http://dx.doi.org/10.1016/j.epsl.2017.06.040.
Ravenna, M., S. Lebedev, 2017. Bayesian inversion of surface-wave data for radial and azimuthal shear-wave anisotropy, with applications to central Mongolia and west-central Italy. Geophys. J. Int., ggx497, https://doi.org/10.1093/gji/ggx497.
Vanicek, P., P. Novak, M. Sheng, R. Kingdon, J. Janak, I. Foroughi, Z. Martinec, and M. Santos, 2017. Does Poisson’s downward continuation give physically meaningful results? Studia Geophys. Geod., 61, 412–428.
Watremez, L., M. Prada., T. Minshull., B. O’Reilly., C. Chen., T. Reston., P. Shannon., G. Wagner., V. Gaw., D. Klaeschen., R. Edwards and S. Lebedev, 2017. Deep structure of the Porcupine Basin from wide-angle seismic data. In: Bowman, M. & Levell, B. (eds) Petroleum Geology of NW Europe: 50 Years of Learning – Proceedings of the 8th Petroleum Geology Conference Geological Society, London, Petroleum Geology Conference series, 8. First published online 27 October 2016. https://dx. doi.org/10.1144/PGC8.26.
Category: External Publications, Geophysics, Research Publications
🥳 Massive congratulations to our own @Naoicea from all of us here at DIAS for this award! 🎉 #DIASdiscovers twitter.com/SocCeltEuropae…
Would have to agree they are very pretty🤩 #nojudgementhere 😄 twitter.com/Naoicea/status…
Today, Professor Barry Lewis is chairing the session Y Cyfnod Modern Cynnar / Early Modern Welsh literature and scholarship @Cyngres2 from 11:30-1! #DIASdiscovers
This afternoon during the 4-5:30 session @Cyngres2 , postdoc @ChantalKobel will present her work on a selection of hitherto unidentified and unnoticed glossed extracts to Bretha Nemed Toísech! #DIASdiscovers
@myHNN has a new article out profiling Professor Robin Chapman Stacey, a member of the Governing Board for the School of Celtic Studies, and her work studying the sources of Medieval law in Wales! 🏴⚖️ #DIASdiscovers
Today, the School of Celtic Studies is headed to @BangorUni for the XVIth International Congress of Celtic Studies @Cyngres2! Did you know that the very first Congress of Celtic Studies was held here, @DIAS_Dublin, in 1959?! #DIASdiscovers
Just in case you were wondering 👩🚀👨🚀🔭 The Irish For: An astronaut is a star-sailor, a comet is a paintbrush star jrnl.ie/4731061
📺 Make sure you tune in to @RTEOne tonight at 6:30 PM to catch @petertgallagher, head of Astronomy and Astrophysics, who will be on the special live programme 50 Years: To the Moon and Back, hosted by @lawlor_aine, to mark #Apollo50 ! #DIASdiscovers
Well done to all! #DIASdiscovers twitter.com/petertgallaghe…
Tickets at the ready! 🎟️ @DIASDunsink @DIASAstronomy @festofcuriosity #DIASdiscovers #curiousdublin
Great start to @festofcuriosity here @DIASDunsink We look forward to welcoming all our visitors this evening #curiousdublin #DIASdiscovers
🔭 We'll see all you astronomers (and hopefully some stars too🤞) tonight @DIASDunsink for our booked out @festofcuriosity Summer Night Stargazing event! If you missed out on tickets, keep an eye out for next year and get in early!🌌 #curiousdublin #DIASdiscovers
🌌 The future of space research at DIAS includes high levels of international collaboration on 3 major international satellite missions launching in 2020, 2021, and 2028! 🛰️ @esa Solar Orbiter 🛰️ @esa, @NASA, @csa_asc @NASAWebb 🛰️ @esa ARIEL #DIASdiscovers #JWST #Space
As we mark #Apollo50, we also celebrate our own 50th anniversary as space research pioneers! We think there will be even more to celebrate over the next 50 as DIAS continues to push the boundaries of space research and exploration! #DIASDiscovers #SpaceResearch