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
In 1947 our School of Cosmic Physics was established. You can read about the fascinating work being done at the school at: dias.ie/cp/ #DIASdiscovers
@Dos_Uve_Doble @StpDias Hi Jean Jaques. If you send your request by email to contact@dias.ie your query will be pointed in the right direction. Hoping you find what you're looking for.
If you missed last week's #DIASDublin Public Lecture "Forecasting the Unpredictable: earthquake science in a crowded world" by Prof John McCloskey @EdinburghUni you can watch it here youtube.com/watch?v=_Uix4f…
“One might say that the purpose of the scientific schools of the Institute is to play a small but effective part in trying to satisfy man’s insatiable desire to understand how nature works” - J.L. Synge Senior, Professor at @StpDias from 1948–1972 #DIASdiscovers
The DIAS School of Celtic Studies @SCSLibrary trace the development of Celtic languages through a study of its different stages of attestation from earliest times to the spoken languages of today. Tuilleadh eolais ar an scoil le fáil anseo: twitter.com/SCSLibrary #DIASdiscovers
In 2012, we launched the Irish Astronomy Trail, which links all the key astronomy sites on the island of Ireland and is a cross-border initiative with the Armagh Observatory. Find out about the trail here: astronomytrail.ie #DIASdiscovers
When sitting down to dinner on the 25th, spare a thought for the 1st astronauts in space at #Christmas who settled down to hot cocoa, cookies, corn chowder, chicken and gravy. Find out about the first Christmas in space aboard Apollo 8 at ietv.co/2EdRJ7s. #DIASdiscovers
“Astronomy was the cradle of the natural sciences and the starting point of geometrical theories.” Cornelius Lanczos, Senior Prof at the @StpDias from 1954 to 1968.
Professor Sergei Lebedev, lead researcher on the @dias_geophysics Sea-Seis project has just been featured in @siliconrepublic's '22 scientists making the world a better place' list! Great to see Sergei and his work being recognised! #DIASdiscovers twitter.com/siliconrepubli…
Our visiting guest, Professor John McCloskey @EdinburghUni spoke to @NewstalkFM @SeanMoncrieff this afternoon about the unpredictability of volcanoes! Don’t miss his talk tonight - 6.30pm @TCD_physics, organised by @dias_geophysics. Full details: bit.ly/2AqmORP
@AdeODubhghaill You seem to have made a good start!
DIAS is the world’s foremost academic publisher in the field of #CelticStudies. 400 books have been published by our School of Celtic Studies. #DIASdiscovers
At DIAS, our mission is to push the boundaries of current understanding in our specialist disciplines and to conduct fundamental research to the highest international standards. #DIASdiscovers
Don't forget that the "Forecasting the Unpredictable: earthquake science in a crowded world" public lecture is being given tomorrow in @tcddublin by Professor John McCloskey, Chair in Natural Hazards Science at @EdinburghUni. All info at bit.ly/2QphEQJ. #DIASdiscovers
Cornelius Lanczos was a Senior Prof at the @StpDias from 1954 to 1968. #DIASdiscovers