Munkatársaink által tartott konferencia-előadások
2025
Csatlós M., E. Győri, and B. Süle, 2025, Attenuation of seismic waves in the Pannonian Basin, in EGU General Assembly 2025: Abstracts. (2025), Vienna, Austria,
Csatlós M., and B. Süle, the AlpArray and PACASE Working Group, 2025, Calibrating the Local Magnitude Scale for Hungary Using Permanent and Temporary Stations, in 6th AdriaArray Workshop 2025. 11-14 March, San Servolo (Venice), Italy,
Czecze B., 2025, Revised Seismicity Catalog of the Pannonian Basin Using Multiple-Event Relocation Algoriths: Local and Regional Scale Studies, in EGU General Assembly 2025: Abstracts. (2025), Vienna, Austria,
Czecze B., and I. Bondár, 2025, Review of Local and Regional Seismicity in the Carpathian Basin Using Multiple Event Location Algorithms with ground truth events, in EGU General Assembly 2025: Abstracts. (2025), in 6th AdriaArray Workshop 2025. 11-14 March, San Servolo (Venice), Italy,
Szárnya, C., J. Vinkó, B. Gucsik, M. Pásztor, T. Rubóczki, L. Deme, and V. Barta, 2025, Taurida-tűzgömb több műszeres észlelése Magyarország felett, in Magyar Űrkutatási Fórum 2025 - Az Előadások Összefoglalói, 47, https://m2.mtmt.hu/api/publication/36126821
Kalmár D., A. Balázs, L. Petrescu, Gy. Hetényi, J. Stipčević, I. J. Kovács and I. Bondár, 2025, Mapping Lithospheric Discontinuities and Residual Topography in the Pannonian Basin and Surrounding Orogens, in EGU General Assembly 2025: Abstracts. (2025), Vienna, Austria,
Kalmár D., L. Petrescu, Gy. Hetényi, K. Michailos, B. Süle, C. Neagoe, G. Bokelmann and the AlpArray and PACASE Working Groups, 2025, Mantle Transition Zone Structure in the Alpine-Carpathian-Dinarides: Evidence from P-to-S Receiver Function Analysis, in 6th AdriaArray Workshop 2025. 11-14 March, San Servolo (Venice), Italy,
Kalmár D., L. Petrescu, Gy. Hetényi, K. Michailos, A. Balázs, J. Stipčević, G. Bokelmann, B. Süle, C. Neagoe, I. J. Kovács, and I. Bondár, AlpArray-PACASE Working Group and AdriaArray Seismology Group, 2025, Crust and Mantle Structure of the wider Pannonian Basin region: Insights from Receiver Function Analysis, in IAGA/IASPEI Joint Scientific Meeting 2025, Lisbon, Portugal,
Pásztor M., T. Šindelářová, D. Ghica, U. Mitterbauer, A. Liashchuk, G. Lacanna, M. Ripepe, and I. Bondár, 2025, Automatic infrasound monitoring at the Central and Eastern European Infrasound Network via Machine Learning, in EGU General Assembly 2025: Abstracts. (2025), Vienna, Austria,
Petrescu L., F. Borleanu, D. Kalmár, and S. Celis, 2025, Subsurface structures and deformation between Adria and Eurasia, in 6th AdriaArray Workshop 2025, 11-14 March, San Servolo (Venice), Italy
2024
Fodor, L., K. Porkoláb, E. Békési, B. Czecze, G. Csilla, D. Kalmár, M. Kiszely, S. Kövér, B. Süle, A. Swierczewska, A. Tokarsi, and Z. Wéber, 2024, New constrains on the neotectonic deformation pattern of the Pannonian Basin: are the fault pattern, the kinematic and stress data in agreement?, in Krzywiec P et al. Book of Abstracts, 18th Workshop of the International Lithosphere Program Task Force Sedimentary Basins 07–11 october 2024, 21–21, https://m2.mtmt.hu/api/publication/35615073
Fodor, L., E. Békési, B. Czecze, G. Csillag, D. Kalmár, M. Kiszely, B. Süle, A. Swierczewska, and A. Tokarsi, 2024, Active tectonics of the Vértes Hills (Hungary) based on precise characterization of earthquakes and geological geomorphological data, in Sikora R. et al. 20th Jubilee Meeting of the Central European Tectonic Studies Groups: Abstract Volume and Field Trips Guide, 87–87, https://m2.mtmt.hu/api/publication/35297634
Kalmár, D., K. Michailos, L. Petrescu, G. Hetényi, G. Bokelmann, and AlpArray and PACASE Working Groups, 2024, Mantle Transition Zone structure beneath the Central and Eastern European region based on P-to-S Receiver Function analysis, in EGU General Assembly 2024: Abstracts. (2024), Vienna, Austria, https://m2.mtmt.hu/api/publication/35498313
Kalmár, D., K. Michailos, L. Petrescu, G. Hetényi, C. Neagoe, G. Bokelmann, the AlpArray and PACASE Working Groups, 2024, Mapping Mantle Transition Zone: Insights from P-to-S Receiver Function Analysis in Central and Eastern Europe, in 39th General Assembly of the European Seismological Commission, https://m2.mtmt.hu/api/publication/35498323
Miklós, K., E. Győri, and K. Gaidzik, 2024, Római kori földrengések Pannóniában és Dáciában, in Török Ákos et al. Mérnökgeológia-Kőzetmechanika 2024., 86–97, https://m2.mtmt.hu/api/publication/35743472
Pásztor, M., D. Ghica, G. Lacanna, I. Bondár, M. Ripepe, T. Sindelarova, and U. Millerbauer, 2024, Machine learning categorization of infrasound detections across the Central and Eastern European Infrasound Network, in Infrasound Technology Workshop 2024 - ITW2024: Book of Abstracts., 12–12, https://m2.mtmt.hu/api/publication/35727321
Pásztor, M., T. Šindelářová, D. Ghica, B. Antonescu, U. Mitterbauer, A. Liashchuk, T. Bozóki, and I. Bondár, 2024, Categorisation of infrasound signals originated from thunderstorms using the Central and Eastern European Infrasound Network, in EGU General Assembly 2024: Abstracts. (2024), Vienna, Austria, https://m2.mtmt.hu/api/publication/35722013
2023
Békési, E., K. Porkoláb, and Z. Wéber, 2023, Stress field of the Pannonian region, in 6th Annual AlpArray scientific meeting, (2022), https://m2.mtmt.hu/api/publication/33286431
Bondár, I., T. Šindelářová, D. Ghica, U. Mitterbauer, A. Liashchuk, C. Neagoe, M. Pásztor, J. Baše, J. Chum, C. Ionescu, B. Czecze, and A. Le Pichon, 2023, CEEIN: The Central and Eastern European Infrasound Network, in IUGG Berlin 2023, 117, https://m2.mtmt.hu/api/publication/34087140
Bondár, I., T. Šindelářová, D. Ghica, U. Mitterbauer, A. Liashchuk, C. Neagoe, M. Pásztor J. Baše, D. Topál and A. Le Pichon, 2023, The Central and Eastern European Infrasound Network, in CTBT: Science and Technology Conference 2023, https://m2.mtmt.hu/api/publication/34035469
Bozóki, T., G. Sátori, E. Williams, E. Prácser, K. Szabóné André, P. Steinbach, I. Bozsó, A. Horváth, L. Kuslits, M. Timkó, A. Guha, Y. Liu, J. Bór and A. Buzás, 2023, ELF Radio Waves in the Service of Studying the Lithosphere-Atmosphere-Ionosphere System, in 35th URSI General Assembly and Scientific Symposium 2023-08-19 [Sapporo, Japán], 171, https://m2.mtmt.hu/api/publication/34138948
Bozoki, T., J. Młynarczyk, J. Bor, J. Kubisz, I. Bozso, A. Horvath, L. Kuslits, and M. Timko, 2023, ELF-transients detected in the broadband recordings at the Hylaty station in Poland, in EGU General Assembly 2023: Abstracts. (2023), Vienna, Austria, https://m2.mtmt.hu/api/publication/33797498
Czecze, B., D. Kalmár, M. Kiszely, B. Süle, and L. Fodor, 2023, Comparison of earthquake swarm detection methods: Case study at Mór Graben, Hungary, in EGU General Assembly 2023: Abstracts. (2023), Vienna, Austria, https://m2.mtmt.hu/api/publication/33916100
Fodor, L., A. Balázs, M. Handy, D. Kalmár, E. Le Breton, T. Meier, É. Oravecz, M. Timkó, and Z. Wéber, 2023, Connections of the Alps-Carpathians-Dinarides-Pannonian basin: from mantle processes to crustal structures, in 7th Annual AlpArray Scientific Meeting, https://m2.mtmt.hu/api/publication/34470857
Kalmár, D., 2023, Lithospheric properties from seismological aspect: Case study at the Alpine-Carpathian-Pannonian region based on receiver function analysis, in Frontiers of research on coupled surface-deep processes and perpectives on energy and climate societal challenges 2023-04-18, https://m2.mtmt.hu/api/publication/33916062
Kalmár, D., L. Petrescu, G. Hetényi, J. Stipčević, and A. Balázs, 2023, Lithospheric discontinuities and residual topography in the Alpine-Pannonian-Carpathians-Dinarides system, in AGU Fall Meeting 2023 2023-12-11, https://m2.mtmt.hu/api/publication/34470872
Kalmár, D., L. Petrescu, G. Hetényi, J. Stipčević, A. Balázs, I. Bondár, and I. J. Kovács, 2023, The lithospheric structure of the Alpine-Pannonian-Carpathians-Dinarides system: Inferences from P and S receiver function analyses, in IUGG Berlin 2023, https://m2.mtmt.hu/api/publication/34086819
Kalmár, D., L. Petrescu, G. Hetényi, J. Stipčević, A. Balázs, I. Bondár, I. J. Kovács, the AlpArray and PACASE Working Group, 2023, Receiver function analysis in the circum-Pannonian region: Results and Plans, in AdriaArray Workshop 2023, 1, https://m2.mtmt.hu/api/publication/33916044
Kalmár, D., L. Petrescu, J. Stipčević, A. Balázs, and I. J. Kovács, 2023, S-to-P receiver function analysis in the Alpine-Carpathian-Pannonian system, in EGU General Assembly 2023: Abstracts. (2023), Vienna, Austria, https://m2.mtmt.hu/api/publication/33916083
Koroknai, B., G. Wórum, E. Békési, Z. Wéber, B. Czecze, E. Győri, K. Porkoláb, G. Kovács, and T. Tóth, 2023, Introduction of the new seismotectonic map of Hungary (scale - 1:500 000), in 19th meeting of the Central European Tectonic Studies Group (CETeG): Abstract Book, 37–38, https://m2.mtmt.hu/api/publication/33825905
Kovács, G., B. Koroknai, E. Győri, V. Németh, L. Balázs, B. Czecze, G. Wórum, G. Szabó, O. Kegyes-Brassai, and T. Tóth, 2023, Compilation of Seismotectonic hazard map of Hungary based on geomorphology, structural analyses and seismology, in EGU General Assembly 2023: Abstracts. (2023), Vienna, Austria, https://m2.mtmt.hu/api/publication/33782028
Sindelarova, T., C. Czanik, I. Bondár, J. Baše, K. Podolská, M. Pásztor, and M. Kozubek, 2023, Observations at the Station PVCI in 2019-2022 and Identification of the Sources, in CTBT: Science and Technology Conference 2023, https://m2.mtmt.hu/api/publication/34035417
2022
Békési, E., K. Porkoláb, B. Taco, and Z. Wéber, 2022, Present-day stress field and geodetic strain rate in the Circum-Pannonian region, in 6th Annual AlpArray scientific meeting, https://m2.mtmt.hu/api/publication/33771238
Bondár, I., T. Šindelářová, D. Ghica, U. Mitterbauer, A. Liashchuk, J. Baše, J. Chum, C. Czanik, C. Ionescu, C. Neagoe, M. Pásztor, and A. Le Pichon, 2022, The Central and Eastern European Infrasound Network, in Proceedings of the Third European Conference on Earthquake Engineering and Seismology - 3ECEES, 4195–4200, https://m2.mtmt.hu/api/publication/33105452
Bozóki, T., J. Młynarczyk, I. Bozsó, A. Horváth, L. Kuslits, M. Timkó, K. Szabóné André, A. Buzás, and J. Bór, 2022, Towards machine learning-based classification of ELF-transients, in 17th International Conference on Atmospheric Electricity - Abstracts of the Presentations, https://m2.mtmt.hu/api/publication/32926033
Csatlós, M., and B. Süle, 2022, Recalculating the local magnitude of events in the Hungarian National Seismological Bulletin, in EGU General Assembly 2022: Abstracts. (2022), Vienna, Austria, https://m2.mtmt.hu/api/publication/35729999
Fodor, C., and P. Varga, 2022, Relationship between temporal variation of Earth’s flattening and spatial distribution of global earthquake energy, in EGU General Assembly 2022: Abstracts. (2022), Vienna, Austria, https://m2.mtmt.hu/api/publication/33553003
Horváth, A., M. Timkó, M. Kiszely, T. Bozóki, I. Bozsó, and L. Kuslits, 2022, Classifying earthquakes and mining activity with deep neural networks, in EGU General Assembly 2022: Abstracts. (2022), Vienna, Austria, https://m2.mtmt.hu/api/publication/32854180
Kalmár, D., and A. Balázs, 2022, Crustal deformation and residual topography in the East Alpine-Carpathian-Pannonian system, in AGU Fall Meeting. Science Leads the Future: Online everywhere, https://m2.mtmt.hu/api/publication/33556421
Kalmár, D., A. Balázs, B. Süle, C. Neagoe, I. Bondár, J. Stipčević, L. Petrescu, M. Živčić, and the AlpArray Working Group, 2022, S receiver function analysis in the Alpine-Carpathian-Pannonian region: Preliminary results, in Proceedings of the Third European Conference on Earthquake Engineering and Seismology - 3ECEES, 3587–3596, https://m2.mtmt.hu/api/publication/33105391
Kalmár, D., G. Hetényi, A. Balázs, I. Bondár, and the AlpArray Working Group, 2022, The crustal structure of the Pannonian Basin region from P receiver function analysis, in 6th Annual AlpArray scientific meeting, https://m2.mtmt.hu/api/publication/33200341
Kalmár, D., L. Petrescu, A. Balázs, J. Stipčević, I. J. Kovács, and the AlpArray Working Group, 2022, S receiver function analysis in the Pannonian Basin and wider region, in 6th Annual AlpArray scientific meeting 2022-10-12, https://m2.mtmt.hu/api/publication/33105391
Liptai, N., Z. Gráczer, G. Szanyi, S. Cloetingh, B. Süle, L. Aradi, G. Falus, G. Bokelmann, M. Timkó, G. Timár, C. Szabó, I. J. Kovács, and the AlpArray Working Group, 2022a, Evolution of anisotropy in the upper mantle of a tectonically inverted extensional basin: A joint study of xenoliths and shear-wave splitting from the Carpathian-Pannonian region, in Goldschmidt Conference 2022: abstracts, 11099, https://m2.mtmt.hu/api/publication/33575901
Liptai, N., Z. Gráczer, G. Szanyi, B. Süle, L. Aradi, G. Falus, G. Bokelmann, M. Timkó, G. Timár, S. Cloetingh, C. Szabó, and I. J. Kovács, 2022, Seismic anisotropy beneath the western part of the Carpathian-Pannonianregion inferred from combined SKS splitting and mantle xenolith studies, in EGU General Assembly 2022: Abstracts. (2022), Vienna, Austria, https://m2.mtmt.hu/api/publication/33575893
Liptai, N., Z. Gráczer, G. Szanyi, S. Cloetingh, B. Süle, L. Aradi, G. Falus, G. Bokelmann, M. Timkó, G. Timár, C. Szabó, I. J. Kovács, and the AlpArray Working Group, 2022b, Szeizmikus anizotrópia a Kárpát-Pannon régió felsőköpenyében, in Calce et malleo – Mésszel és kalapáccsal, 93, https://m2.mtmt.hu/api/publication/33575867
Magos, L., T. Bozóki, I. Bozsó, J. Bór, A. Horváth, L. Kuslits, M. Timkó, and A. Buzás, 2022, Digitizing archive atmospheric electric potential gradient data for scientific research, in EGU General Assembly 2022: Abstracts. (2022), Vienna, Austria, https://m2.mtmt.hu/api/publication/32854181
Michailos, K., M. Scarponi, J. Stipčević, G. Hetényi, K. Hannemann, D. Kalmár, S. Mroczek, A. Paul, J. Plomerová, F. Tilmann, J. Vergne, and the AlpArray Working Group, 2022, Moho depths beneath the European Alps from receiver functions of the AlpArray Seismic Network, in EGU General Assembly 2022: Abstracts. (2022), Vienna, Austria, https://m2.mtmt.hu/api/publication/33067295
Miklós, K., E. Győri, and K. Gaidzik, 2022, Was Antiquity seismically more active than the Middle Ages? - Roman earthquakes in Pannonia and Dacia, in Proceedings of the Third European Conference on Earthquake Engineering and Seismology - 3ECEES, 4467–4476, https://m2.mtmt.hu/api/publication/33152993
Petrescu, L., and D. Kalmár, 2022, Slab graveyards versus mantle plumes: clues from the mantle transition zone beneath the Carpathian region imaged with ambient noise, in SEDI conf. 17th Symposium Study of the Earth Deep Interior – SEDI 2022: Meeting Booklet, 64–64, https://m2.mtmt.hu/api/publication/33067307
Timkó, M., A. El-Sharkawy, L. Wiesenberg, L. Fodor, Z. Wéber, S. Lebedev, and T. Meier, 2022, Crustal and upper mantle 3D Vs structure of the Pannonian Region from joint earthquake and ambient noise Rayleigh wave tomography, in EGU General Assembly 2022: Abstracts. (2022), Vienna, Austria, https://m2.mtmt.hu/api/publication/33554002
Weber, B., P. Mónus, I. Bondár, D. Rößler, C. Czanik, and M. Pásztor, 2022, Seismo-acoustic event detection, localization and discrimination of a missile impact in Western Ukraine on March 18, 2022, in Proceedings of the Third European Conference on Earthquake Engineering and Seismology - 3ECEES, 2022, 4201–4206, https://m2.mtmt.hu/api/publication/33105484
2021
Bondár, I., B. Czecze, K. Mackey, K. Abrams, A. Berezina, N. Mikhailova, and R. Gok, 2021, A comprehensive earthquake catalog in Central Asia, in CTBT Science and Technology Conference 2021 (SnT2021) - Book of Abstracts, Vienna, Austria, https://m2.mtmt.hu/api/publication/32464262
Coman, A., E. F. Manea, M. Radulian, E. Győri, and M. Mihai, 2021, Local site effects investigations along the Pannonian Basin, in 37th General Assembly of the European Seismological Commission ESC 2021 - Book of Abstracts. (2021), Vienna, Austria, https://m2.mtmt.hu/api/publication/32464327
Czecze, B., and I. Bondár, 2021, Seismicity of the Pannonian Basin: relocation with the Bayesloc algorithm using ground truth events as anchors, in IAGA-IASPEI 2021 Abstracts. (2021), 416, https://m2.mtmt.hu/api/publication/32464001
Czecze, B., I. Bondár, T. Godoladze, G. Yetirmishli, and R. Gok, 2021, Seismicity of the Caucasus region: a comprehensive, revised catalog for 1951-2019, in CTBT Science and Technology Conference 2021 (SnT2021) - Book of Abstracts, https://m2.mtmt.hu/api/publication/32464169
Czecze, B., I. Bondár, and The AlpArray Working Group, 2021, Improving the view of the seismicity in the Pannonian Basin with the Bayesloc algorithm, in : 37th General Assembly of the European Seismological Commission ESC 2021 - Book of Abstracts, https://m2.mtmt.hu/api/publication/32463830
Fodor, C., and P. Varga, 2021, Modelling moving force of tectonic plates with the use of length of day variation, in EGU General Assembly 2021: Abstracts. (2021), Vienna, Austria, https://m2.mtmt.hu/api/publication/32007527
Kalmár, D., G. Hetényi, A. Balázs, I. Bondár, and the AlpArray Working Group, 2021a, Comprehensive receiver function analysis of the Pannonian Basin and its surrounding regions., in IAGA-IASPEI 2021 Abstracts, https://m2.mtmt.hu/api/publication/32462238
Kalmár, D., G. Hetényi, A. Balázs, I. Bondár, and the AlpArray Working Group, 2021b, The crustal structure of the Pannonian Basin and wider region from P-to-S receiver function analysis, in 37th General Assembly of the European Seismological Commission ESC 2021 - Book of Abstracts, https://m2.mtmt.hu/api/publication/32462805
Kiszely, M., D. Kalmár, B. Czecze, and I. Bondár, 2021, Comparison of swarm localization methods with the help of temporary local stations in Mór Graben, Hungary, 37th General Assembly of the European Seismological Commission ESC 2021 - Book of Abstracts, https://m2.mtmt.hu/api/publication/32463788
Kiszely, M., B. Süle, and I. Bondár, 2021, Discrimination of earthquakes and quarry blasts in Mecsek Mountain region (Hungary) and its vicinity by using a linear discrimination function, in EGU General Assembly 2021: Abstracts. (2021), Vienna, Austria, https://m2.mtmt.hu/api/publication/32463266
Pásztor, M., C. Czanik, and I. Bondár, 2021, Exploiting infrasound detections to identify and track regional storms, in EGU General Assembly 2021: Abstracts. (2021), Vienna, Austria, https://m2.mtmt.hu/api/publication/32580938
Timkó, M., A. El-Sharkawy, L. Wiesenberg, Z. Wéber, S. Lebedev, T. Meier, and the AlpArray Working Group, 2021, 3D lithospheric structure of the Pannonian Basin from the joint inversion of earthquake and ambient noise surface wave tomography, in AlpArray Scientific Meeting 2021-11-10, https://m2.mtmt.hu/api/publication/32598332
Timkó, M., D. Kalmár, B. Süle, and Z. Wéber, 2021, Litoszféra-kutatás a Pannon-medencében: a magyar AlpArray program, in A Magyar Tudomány Ünnepe 2021. Doktoranduszok interdiszciplináris kutatásai a belügyi nemzetbiztonsági szférában – online/hybrid tudományos konferencia 2021-11-19, https://m2.mtmt.hu/api/publication/32784179
Timkó, M., L. Wiesenberg, A. El-Sharkawy, Z. Wéber, and T. Meier, 2021, Crustal and upper mantle velocity structure of the Pannonian Region using Rayleigh wave ambient noise tomography, in EGU General Assembly 2021: Abstracts. (2021), Vienna, Austria, https://m2.mtmt.hu/api/publication/32635013
Varga, P., E. Győri, G. Timár, and G. Molnár, 2021, Localization of historical earthquakes in the Pannonian Basin, in 37th General Assembly of the European Seismological Commission ESC 2021 - Book of Abstracts, https://m2.mtmt.hu/api/publication/32463384
2020
Czecze, B., and I. Bondár, 2020, Relocation of seismicity of the Pannonian Basin using the Bayesloc multiple event location algorithm between 1996 and 2019, in EGU General Assembly 2020: Abstracts. (2020), Vienna, Austria, https://m2.mtmt.hu/api/publication/31603923
Kalmár, D., G. Hetényi, and I. Bondár, 2020, Moho depth determination in the Eastern Alps-Pannonian basin-Carpathian mountains region based on H-K grid search method and CCP migration of receiver functions, in EGU General Assembly 2020: Abstracts. (2020), Vienna, Austria, https://m2.mtmt.hu/api/publication/31603937
Kiszely, M., S. Bálint, and I. Bondár, 2020, Discrimination between earthquakes and quarry blasts in the Vertes Hills, Hungary using a correlation detector, in EGU General Assembly 2020: Abstracts. (2020), Vienna, Austria, https://m2.mtmt.hu/api/publication/31603928
Pásztor, M., C. Czanik, and I. Bondár, 2020, Identitification and tracking of storms via infrasound detections, in EGU General Assembly 2020: Abstracts. (2020), Vienna, Austria, https://m2.mtmt.hu/api/publication/31603942
Stampa, J., M. Timkó, M. Tesch, and T. Meier, 2020, Automatic Picking of Teleseismic P- and S-Phases using an Autoregressive Prediction Approach, in EGU General Assembly 2020: Abstracts. (2020), Vienna, Austria, https://m2.mtmt.hu/api/publication/31323533
Timkó, M., L. Wiesenberg, A. El-Sharkawy, Z. Wéber, and T. Meier, 2020, Lithospheric structure of the Pannonian Basin using Rayleigh wave ambient noise tomography-preliminary results, in EGU General Assembly 2020: Abstracts. (2020), Vienna, Austria, https://m2.mtmt.hu/api/publication/31323527
Wéber, Z., B. Czecze, Z. Gráczer, B. Süle, G. Szanyi, I. Bondár, and the AlpArray Working Group, 2020, Comprehensive analysis of the March 7, 2019 Somogyszob, Hungary earthquake cluster, in EGU General Assembly 2020: Abstracts. (2020), Vienna, Austria, https://m2.mtmt.hu/api/publication/31603918
2019
Bondár, I., N. Arora, and R. Le Bras, 2019a, Assessing the accuracy and completeness of the NET-VISA automatic bulletin, in 27th IUGG General Assembly 2019-07-08, Montreal, Canada, https://m2.mtmt.hu/api/publication/30801864
Bondár, I., N. Arora, and R. Le Bras, 2019b, Evaluation of Event Location Performance Compared to SEL3 and NEIC PDE, in CTBT: Science and Technology Conference 2019-06-24, Vienna, Ausztria, https://m2.mtmt.hu/api/publication/30801826
Bondár, I., B. Czecze, and S. C. Myers, 2019, Seismicity of the Pannonian Basin: simultaneous relocation with bayesloc, in 27th IUGG General Assembly 2019-07-08, Montreal, Canada, https://m2.mtmt.hu/api/publication/30801862
Bondár, I., R. Gok, S. Myers, I. El-Hussain, W. Abdulnaby, H. Zahran, A. Berezina, and T. Godoladze, 2019, RSTT Validation Studies in the Middle East, Central Asia and the Caucasus, in CTBT: Science and Technology Conference 2019-06-24, Vienna, Ausztria, https://m2.mtmt.hu/api/publication/30801831
Bondár, I., P. Mónus, C. Czanik, M. Marótiné Kiszely, and Z. Gráczer, 2019, Relocation of the seismicity in the Pannonian Basin with a 3D velocity model between 1996 and 2016, GEOPHYSICAL RESEARCH ABSTRACTS, 21, https://m2.mtmt.hu/api/publication/30801840
Bondár, I., R.J. Steed, A. Fuenzalida, R. Bossu, A. Heinloo, A. Dupont, J. Saul, A. Strollo, 2019, CsLoc: crowdseeded locations of felt and damaging earthquakes, in 27th IUGG General Assembly 2019-07-08, Montreal, Canada, https://m2.mtmt.hu/api/publication/30801863
Czanik, C., G. Daniela, S. Tereza, M. Ulrike, and L. Alexander, 2019, Improving the infrasound monitoring capability in Europe incorporating CEEIN, in CTBT Science and Technology 2019 Conference Book of Abstracts, 12, https://m2.mtmt.hu/api/publication/30846925
Czanik, C., G. Daniela, S. Tereza, M. Ulrike, L. Alexander, and I. Bondár, 2019, Improvement of the European infrasound network performance incorporating CEEIN, CTBTO Infrasound Technology Workshop 2019-11-10, Aqaba, Jordánia, https://m2.mtmt.hu/api/publication/31146398
Czanik, C., M. Marótiné Kiszely, P. Mónus, B. Süle, and I. Bondár, 2019a, Seismo-Acoustic Bulletin of Regional Ground Truth Events Detected in Hungary, in 27th IUGG General Assembly 2019-07-08, Montreal, Canada, https://m2.mtmt.hu/api/publication/30801860
Czanik, C., M. Marótiné Kiszely, P. Mónus, B. Süle, Z. Gráczer, and I. Bondár, 2019, The Hungarian Seismo-Acoustic Bulletin, GEOPHYSICAL RESEARCH ABSTRACTS, 21, https://m2.mtmt.hu/api/publication/30801851
Czecze, B., and I. Bondár, 2019a, Discrimination of earthquakes and quarry explosions in Hungary using waveform cross-correlation and dendrogram analysis, GEOPHYSICAL RESEARCH ABSTRACTS, 21, https://m2.mtmt.hu/api/publication/30801845
Czecze, B., S. Myers, and I. Bondár, 2019, Simultaneous Relocation of the Seismicity of the Pannonian Basin using Bayesloc, in CTBT Science and Technology 2019 Conference Book of Abstracts, https://m2.mtmt.hu/api/publication/30801820
Czirok, L., I. Bozsó, and K. E. Gribovszki, 2019, Monitoring of Deformations Caused by Tectonic Processes in the Carpathian Bend Using GIS, in 27th IUGG General Assembly: Beyond 100: The next century in Earth and Space Science, https://m2.mtmt.hu/api/publication/30811058
Czirok, L., L. Kuslits, I. Bozsó, K. E. Gribovszki, and L. Bányai, 2019, Seismotectonic analysis using GIS and stress inversions in the SE-Carpathians, Advanced Workshop on Earthquake Fault Mechanics: Theory, Simulation and Observations | (smr 3319) 2019-09-02, Trieste, Olaszország, https://m2.mtmt.hu/api/publication/30840189
Godoladze, T., R. Gok, T. Onur, I. Bondár, M. Dzmanashvili, I. Gunia, N. Tumanova, G. Yetermishli, and H. Babayan, 2019, The Caucasus Seismic Hazard, in CTBT Science and Technology 2019 Conference Book of Abstracts, https://m2.mtmt.hu/api/publication/30801812
Gráczer, Z., G. Szanyi, I. J. Kovács, and the AlpArray Working Group, 2019, Seismic anisotropy beneath western Hungary, 2nd AlpArray Science meeting 2019 2019-11-13, Frankfurt am Main, Németország, https://m2.mtmt.hu/api/publication/30922448
Gribovszki, K. E., K. Kovács, P. Mónus, G. Bokelmann, P. Konecny, M. Lednicka, G. Moseley, R. L. Edwards, M. Bednárik, L. Brimich, and L. Tóth, 2019, Constraints on long-term seismic hazard information from vulnerable stalagmites, https://m2.mtmt.hu/api/publication/30813553
Gribovszki, K. E., P. Mónus, E. Prácser, A. Novák, S. Szalai, M. Marótiné Kiszely, and G. Bokelmann, 2019a, In situ measurements of stalagmites’ vibration by using portable digital vibrometer - next step of gaining long-term seismic hazard information from intact vulnerable stalagmites, GEOPHYSICAL RESEARCH ABSTRACTS, 21, https://m2.mtmt.hu/api/publication/30813496
Gribovszki, K. E., P. Mónus, E. Prácser, A. Novák, S. Szalai, M. Marótiné Kiszely, and G. Bokelmann, 2019b, In situ measurements of stalagmites’ vibration by using portable digital vibrometer - next step of gaining long-term seismic hazard information from intact vulnerable stalagmites, in EGU (European Geosciences Union) General Assembly 2019, European Geosciences Union (EGU), Geophysical Research Abstracts, ISSN 1029-7006 ; 21, https://m2.mtmt.hu/api/publication/31135584
Kalmár, D., G. Hetényi, and I. Bondár, 2019a, Crustal Structure and Moho Depth Determination in the Eastern Alps and the Pannonian Basin from Receiver Function Analysis, in 27th IUGG General Assembly 2019-07-08, Montreal, Canada, https://m2.mtmt.hu/api/publication/30801861
Kalmár, D., G. Hetényi, and I. Bondár, 2019c, P receiver function analysis in the Pannonian Basin, 2nd AlpArray Science meeting 2019 2019-11-13, Frankfurt am Main, Németország, https://m2.mtmt.hu/api/publication/30921026
Kalmár, D., G. Hetényi, and I. Bondár, 2019d, Receiver function analysis of the transition zone between the Pannonian Basin and the Southern Carpathians, GEOPHYSICAL RESEARCH ABSTRACTS, 21, https://m2.mtmt.hu/api/publication/30801848
Kovács, I. J., G. Szanyi, Z. Gráczer, Z. Wéber, B. Süle, M. Timkó, T. Czifra, N. Liptai, M. Berkesi, T. Lange, A. Novák, C. Molnár, E. Szűcs, C. Szabó, and V. Wesztergom, 2019a, The Pannon LitH2Oscope project: a large scale interdisciplinary endaevour in the Pannonian Basin to test the “pargasosphere” concept, GEOPHYSICAL RESEARCH ABSTRACTS, 21, https://m2.mtmt.hu/api/publication/30855321
Kovács, I. J., G. Szanyi, Z. Gráczer, Z. Wéber, B. Süle, M. Timkó, T. Czifra, N. Liptai, M. Berkesi, T. Lange, A. Novák, C. Molnár, E. Szűcs, C. Szabó, and V. Wesztergom, 2019b, The Pannon LitH2Oscope project: developing the “pargasosphere” concept, in ILP 2019 :14th Workshop of the International Lithosphere Program Task Force Sedimentary Basins : abstracts S. Kövér, A. Balázs, and L. Fodor (Editors), 69, https://m2.mtmt.hu/api/publication/30851978
Marótiné Kiszely, M., and G. Hudoba, 2019, The MarsQuake program for Hungarian High School Students, in Proceedings of the 5th International Conference on Research, Technology and Education of Space (H-SPACE 2019) L. Bacsárdi, and K. Kovács (Editors), Magyar Asztronautikai Társaság, Budapest, 65–66, https://m2.mtmt.hu/api/publication/30804518
Manea, E. F., E. Győri, A. Coman, C. O. Cioflan, M. Radulian, and I. J. Kovács, 2019, Single station analysis of microseismic noise in the Pannonian Basin, in ILP 2019 :14th Workshop of the International Lithosphere Program Task Force Sedimentary Basins : abstracts S. Kövér, A. Balázs, and L. Fodor (Editors), 87–89, https://m2.mtmt.hu/api/publication/30854273
Szanyi, G., Z. Gráczer, I. J. Kovács, and the AlpArray Working Group, 2019, Shear wave velocity structure of the transition zone between the Eastern Alps and the Pannonian Basin from ambient noise tomography, 2nd AlpArray Science meeting 2019 2019-11-13, Frankfurt am Main, Németország, https://m2.mtmt.hu/api/publication/30922390
Timkó, M., W. Lars, E.-S. Amr, Z. Wéber, M. Thomas, and the AlpArray Working Group, 2019a, Ambient noise tomography in the Pannonian Basin, 2nd AlpArray Science meeting 2019 2019-11-13, Frankfurt am Main, Németország, https://m2.mtmt.hu/api/publication/30923872
Timkó, M., W. Lars, E.-S. Amr, Z. Wéber, M. Thomas, and the AlpArray Working Group, 2019b, Ambient noise tomography in the Pannonian Basin – Preliminary results, AG Seismologie 2019-09-23, Rastatt, Németország, https://m2.mtmt.hu/api/publication/30846756
Wéber, Z., B. Süle, T. Czifra, Z. Gráczer, I. J. Kovács, A. Schlömer, G. Szanyi, E. Szűcs, and V. Wesztergom, 2019, Towards a new era in seismological imaging of the lithosphere beneath the Pannonian Basin,in Understanding the multi-scale formation and evolution of orogens and sedimentary basins, ILP Task Force on Sedimentary Basins Workshop in Memory of Frank Horváth 2019-10-15 [Hévíz, Magyarország] 2019-10-15, Hévíz, Magyarország, https://m2.mtmt.hu/api/publication/30863782
2018
Bán, Z., A. Mahler, and E. Győri, 2018, Performance of Liquefaction Assessment Method Based on Combined Use of Cone Penetration Testing and Shear Wave Velocity Measurement, in XVI DECGE 2018 Proceedings of the 16th Danube ‐ European Conference on Geotechnical Engineering, Ernst und Sohn, ce/papers, ISSN 2509-7075, 193–198, https://m2.mtmt.hu/api/publication/3424192
Bondár, I., 2018, iLoc2.0, in Book of Abstracts of 36th General Assembly of the European Seismological Commission (ESC2018), Mistral Service, Messina, 116, https://m2.mtmt.hu/api/publication/30359563
Czanik, C., D. Ghica, T. Sindelarova, U. Mitterbauer, J. Chum, J. Base, J. Lastovicka, I. Bondár, and C. Ionescu, 2018, The Central and Eastern European Infrasound Network, Infrasound Technology Workshop 2018 2018-11-05, Bécs, Ausztria, https://m2.mtmt.hu/api/publication/30372972
Czanik, C., M. Marótiné Kiszely, P. Mónus, B. Süle, Z. Gráczer, and I. Bondár, 2018, Preliminary catalog of quarry blasts in Hungary recorded by the PSZI infrasound array, GEOPHYSICAL RESEARCH ABSTRACTS, 20, https://m2.mtmt.hu/api/publication/30339216
Czecze, B., B. Süle, G. Timár, and I. Bondár, 2018a, Dendrogram analysis and multiple event relocation of Hungarian seismic event clusters between 2000 and 2016, in Book of Abstracts of 36th General Assembly of the European Seismological Commission (ESC2018), Mistral Service, Messina, 119, https://m2.mtmt.hu/api/publication/30359572
Czecze, B., B. Süle, G. Timár, and I. Bondár, 2018b, Hierarchical cluster analysis and multiple event relocation of Hungarian seismic event clusters between 2000 and 2016, GEOPHYSICAL RESEARCH ABSTRACTS, 20, https://m2.mtmt.hu/api/publication/3337825
Czirok, L., I. Bozsó, and K. E. Gribovszki, 2018a, Analysis of tectonic and geomorphological variations using GIS, in Book of Abstract of the VII International Conference of Young Scientists & Students on Information Technologies in Solving Modern Problems of Geology and Geophysics, 100–102, https://m2.mtmt.hu/api/publication/30377396
Czirok, L., I. Bozsó, and K. E. Gribovszki, 2018b, SEISMO-TECTONIC INFORMATION SYSTEM FOR THE ANALYSIS OF TECTONIC AND GEOMORPHOLOGICAL VARIATIONS IN THE SE-CARPATHIANS, in Book of Abstracts of 36th General Assembly of the European Seismological Commission (ESC2018), Mistral Service, Messina, 98, https://m2.mtmt.hu/api/publication/3425420
Gribovszki, K. E., K. Kovács, P. Mónus, G. Bokelmann, P. Konecny, M. Lednická, G. Moseley, C. Spötl, R. Edwards, M. Bednárik, L. Brimich, and L. Tóth, 2018, Estimating the upper limit of prehistoric peak ground acceleration using an in-situ, intact and vulnerable stalagmite Plavecká priepast cave, Little Carpathians, Slovakia, in Abstract Book of the Workshop on Evaluation of PSHA on the Basis of Observations, https://m2.mtmt.hu/api/publication/30377527
Gribovszki, K. E., G. Bokelmann, P. Mónus, K. Kovács, P. Konecny, M. Lednicka, M. Bednárik, and L. Brimich, 2018, Constraints on Long-Term Seismic Hazard from Vulnerable Stalagmites, https://m2.mtmt.hu/api/publication/30377586
Gribovszki, K. E., Károly Kovács, S. Esterhazy, P. Mónus, M. Marótiné Kiszely, and G. Bokelmann, 2018a, Progress in investigation of vulnerable stalagmites’ vibration, numerical and analogue modeling, in PANGEO AUSTRIA 2018, Abstracts, University of Vienna, Wien, 19, https://m2.mtmt.hu/api/publication/30351695
Gribovszki, K. E., Károly Kovács, S. Esterhazy, P. Mónus, M. Marótiné Kiszely, and G. Bokelmann, 2018b, Újabb eredmények a sértetlen állócseppkövek vizsgálatával végzett földrengés-veszélyeztetettségi kutatásokban — numerikus és analóg modellezés, in Programfüzet XI. Geomatika Szeminárium (2018), https://m2.mtmt.hu/api/publication/30377469
Gribovszki, K. E., P. Mónus, G. BOKELMANN, M. LEDNICKÁ, and G. MOSELEY, 2018, Estimating the upper limit of prehistoric peak ground acceleration using an in-situ, intact and vulnerable stalagmite from Plavecká priepast cave (Detrekői-zsomboly), Little Carpathians, Slovakia - first results, in ABSTRACT BOOK of the Sixth International Colloquium on Historical earthquakes and paleoseismology studies their contribution to the knowledge of the long-term seismic activity and to seismic hazard assessment, 35–36, https://m2.mtmt.hu/api/publication/30374789
Győri, E., K. E. Gribovszki, and G. Bokelmann, 2018, Modeling depth-dependent attenuation using real in-situ velocity data, improvements of former stalagmite study for determining critical horizontal ground acceleration, GEOPHYSICAL RESEARCH ABSTRACTS, 20, https://m2.mtmt.hu/api/publication/3351544
Kalmár, D., G. Hetényi, B. Süle, and I. Bondár, 2018a, Moho depth determination from P receiver function analysis in the Carpathian Basin, in Book of Abstracts of 36th General Assembly of the European Seismological Commission (ESC2018), Mistral Service, Messina, 648, https://m2.mtmt.hu/api/publication/30359575
Kalmár, D., G. Hetényi, B. Süle, and I. Bondár, 2018b, Receiver function analysis in the Eastern Alps-Pannonian Basin transition zone, GEOPHYSICAL RESEARCH ABSTRACTS, 20, https://m2.mtmt.hu/api/publication/30339214
Koch, K., C. Czanik, C. Pilger, and I. Bondár, 2018, Study of a signal detected at a Hungarian infrasound array on 12 December 2017, in CTBT Infrasound Technology Workshop 2018, x, https://m2.mtmt.hu/api/publication/30373020
Kovács, I. J., L. Lenkey, D. Green, T. Fancsik, G. Falus, J. Kiss, L. Orosz, Z. Vikor, J. Angyal, G. Szanyi, Z. Gráczer, A. Novák, Z. Wéber, B. Süle, E. Szűcs, V. Wesztergom, M. Berkesi, and C. Szabó, 2018, The role of ‘water’ and pargasite in the formation of the LAB beneath the Pannonian Basin, GEOPHYSICAL RESEARCH ABSTRACTS, 20, https://m2.mtmt.hu/api/publication/30382568
Lange, T. P., I. J. Kovács, L. Patkó, G. Falus, L. E. Aradi, G. Szanyi, Z. Gráczer, and C. Szabó, 2018, Összefüggés a felsőköpeny xenolitok és a geofizikai mérések között., in XX. Székelyföldi Geológus Találkozó, 32, https://m2.mtmt.hu/api/publication/31159036
Lázár, L., M. Marótiné Kiszely, L. Földváry, and K. E. Gribovszki, 2018, HGR.01: Geographic Information System of the Moonquakes, GEOPHYSICAL RESEARCH ABSTRACTS, 20, https://m2.mtmt.hu/api/publication/3351547
Marótiné Kiszely, M., 2018b, Marsrengések – kiből lesz marskutató?. Szkeptikusok XXIV. Országos Konferenciája, https://m2.mtmt.hu/api/publication/30389792
Myers, S. C., M. Begnaud, N. Symmons, I. Bondár, R. LeBras, J. Ezekiel, and A. Agrebi, 2018, Regional Seismic Travel Time (RSTT) tomographic data set, in Book of Abstracts of 36th General Assembly of the European Seismological Commission (ESC2018), Mistral Service, Messina, 116, https://m2.mtmt.hu/api/publication/30359564
Sindelarova, T., C. Czanik, D. Ghica, U. Mitterbauer, J. Chum, J. Base, J. Lastovicka, I. Bondár, and C. Ionescu, 2018, Towards a regional infrasound network in Central and Eastern Europe in support of ARISE, ARISE2 Final Workshop 2018-05-14, Hamburg, Németország, https://m2.mtmt.hu/api/publication/30373066
Steed, R., A. Fuenzalid, I. Bondár, R. Bossu, A. Heinloo, A. Dupont, M. Landes, E. Matrullo, F. Roussel, J. Saul, A. Strollo, 2018, Improving seismic network performances by crowdsourced detections, in Book of Abstracts of 36th General Assembly of the European Seismological Commission (ESC2018), Mistral Service, Messina, 282, https://m2.mtmt.hu/api/publication/30359565
Timár, G., D. Drahos, G. Molnár, and P. Varga, 2018, Towards to the geoid - A short overview of the history of gravimetric measurements in geodesy, GEOSCIENCES AND ENGINEERING: A PUBLICATION OF THE UNIVERSITY OF MISKOLC, 6, no. 9, 60–74, https://m2.mtmt.hu/api/publication/30603421
Timkó, M., G. Szanyi, D. Kalmár, Z. Gráczer, I. Bondár, B. Süle, E. Szűcs, V. Wesztergom, and Z. Wéber, 2018, AlpArray in Hungary: Preliminary results, 1st AlpArray Science Meeting 2018-08-29, Zürich, Svájc, https://m2.mtmt.hu/api/publication/30373615
Timkó, M., and Z. Wéber, 2018a, 3D lithospheric structure of the Pannonian Basin from body-wave traveltime tomography, in Book of Abstracts of 36th General Assembly of the European Seismological Commission (ESC2018), Mistral Service, Messina, 131, https://m2.mtmt.hu/api/publication/30373990
Timkó, M., and Z. Wéber, 2018b, Lithosphere structure of the Pannonian Basin using seismic traveltime tomography, GEOPHYSICAL RESEARCH ABSTRACTS, 20, no. 1, https://m2.mtmt.hu/api/publication/30373879
2017
Balázs, B., G. Szanyi, Z. Gráczer, and the AlpArray Working Group, 2017, The transition zone between the Eastern Alps and the Pannonian Basin imaged by ambient noise tomography, GEOPHYSICAL RESEARCH ABSTRACTS, 19, https://m2.mtmt.hu/api/publication/3313694
Bán, Z., A. Mahler, and E. Győri, 2017a, Liquefaction assessment based on combined use of CPT and shear wave velocity measurements, GEOPHYSICAL RESEARCH ABSTRACTS, 19, https://m2.mtmt.hu/api/publication/3305807
Bán, Z., A. Mahler, and E. Győri, 2017b, Site-specific comparison and evaluation of empirical liquefaction potential assessment methods, in PROCEEDINGS OF THE 6th INTERNATIONAL YOUNG GEOTECHNICAL ENGINEERS’ CONFERENCE S. iYGEC6 (Editor), 131–132, https://m2.mtmt.hu/api/publication/3305710
Bán, Z., A. Mahler, T. J. Katona, and E. Győri, 2017, Assessment of liquefaction potential based on combined CPT and shear wave velocity measurements using energy concept, in Conference: Proceedings of the 19th International Conference on Soil Mechanics and Geotechnical Engineering (19th ICSMGE, Seoul 2017) L. Woojin, L. Jong-Sub, K. Hyun-Ki, and K. Dong-Soo (Editors), International Society for Soil Mechanics and Geotechnical Engineering (ISSMGE), 1469–1472, https://m2.mtmt.hu/api/publication/30823193
Bondár, I., R. LeBras, N. Arora, and E. Tomuta, 2017, Evaluation of NetVisa Association and Location Performance Using Ground Truth Events and RSTT Model Based SSSCs, in CTBT: Science and Technology Conference, 10, https://m2.mtmt.hu/api/publication/3316603
Czanik, C., and I. Bondár, 2017a, The First Infrasound Array in Hungary, in CTBT: Science and Technology Conference, 9, https://m2.mtmt.hu/api/publication/3316600
Czecze, B., I. Bondár, and B. Süle, 2017, Hypocenter relocation of the 22 April 2013, ML=4.8 Tenk, Hungary earthquake aftershocks using Waveform cross-correlation and Double-difference methods, in XLVIII. Ifjú Szakemberek Ankétja G. E. Magyar, and F. T. Magyarhoni (Editors), Magyarhoni Földtani Társulat, 21, https://m2.mtmt.hu/api/publication/3316613
Czecze, B., B. Süle, and I. Bondár, 2017b, Multiple event relocation of the 22 April 2013, M L =4.8 Tenk, Hungary earthquake aftershocks, GEOPHYSICAL RESEARCH ABSTRACTS, 19, https://m2.mtmt.hu/api/publication/3310230
Gribovszki, K. E., G Bokelmann, K. Kovács, E Hegymegi, S. Esterhazy, and P. Mónus, 2017, Analogue modelling of the rupture process of vulnerable stalagmites in an earthquake simulator, GEOPHYSICAL RESEARCH ABSTRACTS, 19, https://m2.mtmt.hu/api/publication/3258592
Gribovszki, K. E., G Bokelmann, K. Kovács, P. Mónus, P. Konecny, M. Lednicka, and A. Novák, 2017, Constraints on Long-Term Seismic Hazard From Vulnerable Stalagmites from Vacska cave, Pilis Mountains of Hungary, GEOPHYSICAL RESEARCH ABSTRACTS, 19, https://m2.mtmt.hu/api/publication/3258608
Győri, E., Z. Gráczer, L. Tóth, Z. Bán, and H. Tibor, 2017, Probabilistic liquefaction hazard analysis at liquefied sites of 1956 Dunaharaszti earthquake, in Hungary, GEOPHYSICAL RESEARCH ABSTRACTS, 19, https://m2.mtmt.hu/api/publication/3305811
Kalmár, D., B. Süle, and I. Bondár, 2017a, Receiver function analysis using AlpArray stations in Hungary, GEOPHYSICAL RESEARCH ABSTRACTS, 19, https://m2.mtmt.hu/api/publication/3310207
Kalmár, D., B. Süle, and I. Bondár, 2017b, Receiver function analysis using AlpArray stations in Hungary, in EGU General Assembly 2017: Conference Abstracts G. U. European (Editor), European Geosciences Union (EGU), Geophysical Research Abstracts, ISSN 1029-7006 ; 19, https://m2.mtmt.hu/api/publication/3224093
Kalmár, D., B. Süle, and I. Bondár, 2017c, Receiver functon analysis using AlpArray stations in Hungary, in XLVIII. Ifjú Szakemberek Ankétja G. E. Magyar, and F. T. Magyarhoni (Editors), Magyarhoni Földtani Társulat, 39, https://m2.mtmt.hu/api/publication/3224110
Kis, M., A. Koppán, M. Marótiné Kiszely, K. E. Gribovszki, G. Mentes, and D. Bán, 2017, Analysis of earthquake signals appearing in rock deformation, gravimeter and seismological recordings, GEOPHYSICAL RESEARCH ABSTRACTS, 19, https://m2.mtmt.hu/api/publication/3258612
Lilla, K., M. Marótiné Kiszely, B. Süle, and E. Győri, 2017, Testing different discrimination methods between microearthquakes and quarry blasts – a case study in Hungary, GEOPHYSICAL RESEARCH ABSTRACTS, 19, https://m2.mtmt.hu/api/publication/3309795
Myers, S., M. Begnaud, S. Ballard, A. C. Aguiar Moya, I. Bondár, and R. LeBras, 2017, Regional Seismic Travel Time Evaluation, Training and Outreach, in CTBT: Science and Technology Conference, 122, https://m2.mtmt.hu/api/publication/3316606
Süle, B., 2017, Frequency-dependent attenuation of seismic waves in the Pannonian basin, GEOPHYSICAL RESEARCH ABSTRACTS, 19, https://m2.mtmt.hu/api/publication/3310198
Timkó, M., and Z. Wéber, 2017, 3D seismic traveltime tomography beneath the Pannonian basin: preliminary results, GEOPHYSICAL RESEARCH ABSTRACTS, 19, https://m2.mtmt.hu/api/publication/3308062
Wéber, Z., and E. Győri, 2017, Szeizmológiai kutatások, földrengés-veszélyeztetettség, https://m2.mtmt.hu/api/publication/3308074
2016
Aguiar, A. C., M. S C, and I. Bondár, 2016, Numerical modeling of initial slip and poroelastic effects of the 2012 Costa Rica earthquake using GPS data, in IASPEI Regional Assembly Latin American and Caribbean Seismological Commission Scientific Program, https://m2.mtmt.hu/api/publication/3147359
Ahern, T., G. Ekstrom, M. Grobbelaer, C. Trabant, M. van Fossen, M. Stults, S. Tsuboi, B. C. Beaudoin, and I. Bondár, 2016, FDSN and EarthCube: Coordinating Global Infrastructures within Seismology and Across Other Geophysical Domains, in AGU Fall meeting, American Geophysical Union (AGU), https://m2.mtmt.hu/api/publication/3150575
Békési, E., B. Süle, and I. Bondár, 2016, Multiple event location analysis of aftershock sequences in the Pannonian basin, GEOPHYSICAL RESEARCH ABSTRACTS, 18, https://m2.mtmt.hu/api/publication/3083649
Hegymegi, E., G. Miklós, K. E. Gribovszki, G. Bokelmann, and C. Hegymegi, 2016, Non-destructive speleothem investigation for paleoearthquake records, in 35th General Assembly of the European Seismological Commission, https://m2.mtmt.hu/api/publication/3118089
Gráczer, Z., I. Bondár, C. Czanik, E. Győri, B. Süle, G. Szanyi, E. Szűcs, V. Wesztergom, and Z. Wéber, 2016, AlpArray in Hungary: The Hungarian temporary broadband seismic network and its characteristics, in 35th General Assembly of the European Seismological Commission, https://m2.mtmt.hu/api/publication/3159766
Gribovszki, K. E., S. Esterhazy, G. Bokelmann, P. Mónus, L. Tóth, K. Kovács, P. Konecny, M. Lednicka, C. Spötl, M. Bednárik, L. Brimich, and E. Hegymegi, 2016, Constraints on Long-Term Seismic Hazard From Vulnerable Stalagmites, in 35th General Assembly of the European Seismological Commission, https://m2.mtmt.hu/api/publication/3118088
Gribovszki, K. E., G. Bokelmann, P. Mónus, K. Kovács, and J. Kalmár, 2016, Constraints on Long-Term Seismic Hazard From Vulnerable Stalagmites for the surroundings of Katerloch cave, Austria, GEOPHYSICAL RESEARCH ABSTRACTS, 18, https://m2.mtmt.hu/api/publication/3118074
Gribovszki, K. E., G. Szeidovitz, G. Bokelmann, P. Mónus, K. Kovács, and J. Kalmár, 2016, Studying the Geophysical and Geological Environment of Earthquakes Using Geographic Information System Tools, in 35th General Assembly of the European Seismological Commission, https://m2.mtmt.hu/api/publication/3118094
Gribovszki, K. E., E. Sofi, P. Mónus, K. Kovács, B. Martin, B. Ladislav, and G. Bokelmann, 2016, Földrengés-veszélyeztetettség megállapítása sértetlen állócseppkövek vizsgálatával, in X. Geomatika Szeminárium, https://m2.mtmt.hu/api/publication/3146444
Győri, E., Z. Gráczer, G. Szanyi, and M. Timkó, 2016, Application of active and noise-based site characterization methods during seismic microzonation of Budapest, Hungary, in 35th General Assembly of the European Seismological Commission, https://m2.mtmt.hu/api/publication/3160333
Hegymegi, E., M. Gyöngy, T. Bodolai, F. Divos, E. Barta, K. E. Gribovszki, G. Bokelmann, C. Hegymegi, M. Lednicka, and K. Kovács, 2016, Non-destructive in situ mapping of macroholes, cracks and inhomogeneities of stalagmites in cave environments, GEOPHYSICAL RESEARCH ABSTRACTS, 18, https://m2.mtmt.hu/api/publication/3118081
Irene, M., K. Edi, C. John, G. Hetényi, S. Vesna, S. Josip, D. Iva, S. Stefano, Z. Wéber, and Z. Gráczer, 2016, Swiss AlpArray: deployment of the Swiss AlpArray temporary broad-band stations and their noise characterization, GEOPHYSICAL RESEARCH ABSTRACTS, 18, https://m2.mtmt.hu/api/publication/3101963
Katona, T. J., Z. Ban, A. Mahler, and E. Győri, 2016, Liquefaction Assessment Based on Combined Use of CPT and Shear Wave Velocity Measurement, in 5th International Conference on Geotechnical and Geophysical Site Characterisation ISC’5 A. Leishman (Editor), Leishman Associates, Hobart, 597–602, https://m2.mtmt.hu/api/publication/3233496
Kis, M., A. Koppán, M. Marótiné Kiszely, K. E. Gribovszki, G. Mentes, D. Bán, and L. Merényi, 2016, Analysis of effects related to earthquakes appearing in rock deformation and gravimeter recordings, in 18th International Symposium on Geodynamics and Earth Tides, https://m2.mtmt.hu/api/publication/3118100
Lenhardt, W., D. Pesaresi, M. Zivcic, G. Costa, K. Kuk, I. Bondár, L. Duni, and P. Spacek, 2016, The CE3R Network: current status and future perspectives, GEOPHYSICAL RESEARCH ABSTRACTS, 18, https://m2.mtmt.hu/api/publication/3083654
Marótiné Kiszely, M., and E. Győri, 2016, A robbantások és földrengések paramétereinek stabilitása, in X. Geomatika Szeminárium, https://m2.mtmt.hu/api/publication/3160693
Szanyi, G., F. Péter, Z. Gráczer, and E. Győri, 2016, Landslide characterization using ambient seismic noise techniques at Dunaszekcső, Hungary, in 35th General Assembly of the European Seismological Commission, https://m2.mtmt.hu/api/publication/3159787
Varga, P., and E. Grafarend, 2016, Lunisolar tidal and tidal load elastic stress tensor components within the Earth’s mantle and their influence on earthquake occurrences, GEOPHYSICAL RESEARCH ABSTRACTS, 18, https://m2.mtmt.hu/api/publication/31806823