2024, stopień doktora habilitowanego w dyscyplinie Nauki o Ziemi i środowisku, Instytut Geofizyki PAN
2017, stopień doktora nauk o Ziemi w dyscyplinie geofizyka, Instytut Geofizyki PAN
2012, tytuł magistra na kierunku informatyka stosowana, Wydział Geologii, Geofizyki i Ochrony Środowiska AGH
2011, tytuł inżyniera na kierunku informatyka stosowana, Wydział Geologii, Geofizyki i Ochrony Środowiska AGH
Zatrudnienie:
2024 – obecnie: Profesor PAN; Instytut Geofizyki PAN
2019 – 2023: Post-doc; Institut des Sciences de la Terre, Universite Grenoble Alpes
2018 – 2024: Adiunkt; Instytut Geofizyki PAN
2013 – 2018: Asystent; Instytut Geofizyki PAN
Tematyka badawcza:
Obrazowanie sejsmiczne i budowa modeli prędkości
Struktura skorupy ziemskiej
Metody sejsmiczne w poszukiwaniu minerałów i węglowodorów
Trwające projekty:
National Science Centre, SONATA-BIS, 2024/54/E/ST10/00204, „Optimization of Ocean-Bottom Seismometer Acquisition for Enhanced Crustal-Scale Seismic Imaging”, 2025-2029
National Science Centre, OPUS 2021/43/B/ST10/00965, „Understanding of the influence of petit-spot volcanism on the structure of the lithosphere on the basis of multi-parameter, high-resolution seismic imaging of seismic data from the Japanese Trench”, 2022-2026
JAMSTEC and IG PAS research project, “High-resolution seismic imaging in the Nankai Trough where rough topography is subducting”, 2024-2025
Zakończone projekty:
National Centre for Research and Development, ERA-MIN ERAMIN3/1/113/SEEMSDEEP/2022, „Seismic and electromagnetic methods for deep mineral exploration”, 2022-2025
National Science Centre, OPUS 2019/33/B/ST10/01014, „Three-dimensional imaging of subduction zones with full waveform inversion of two-dimensional seismic data”, 2020-2023
IG PAS 1A/IGF PAN/2016: „Structure and physical properties of the crust in the Nankai Trough subduction zone”, 2016-2017
Young scientist grant 03f/IGF PAN/2015/MŁ: “Development of a full wavefield inversion methodology for deep seismic profile data”, 2015-2016
Górszczyk, A., Almeida, R., Brossier, R., Métivier, L., & Operto, S. (2025). Constraining the effect of bathymetric high subduction in an accretionary wedge: Evidence from the Tokai area of the Nankai Trough, Japan. Geochemistry, Geophysics, Geosystems, 26, e2024GC011754.
Singh, B., Górszczyk, A., Malinowski, M., Heinonen, S., Autio, U., Karinen, T., Wojdyła, M., and the SEEMS DEEP Working Group: 2D seismic imaging of the Koillismaa Layered Igneous Complex, north-eastern Finland, Solid Earth, 16, 1137–1151, https://doi.org/10.5194/se-16-1137-2025, 2025.
Górszczyk, A., Brossier, R., & Métivier, L. (2024). On the effect of 3D wave propagation on 2D regional-scale velocity model building. Journal of Geophysical Research: Solid Earth, 129, e2023JB028172. https://doi.org/10.1029/2023JB028172
Singh, B., Malinowski, M., Górszczyk, A., Malehmir, A., Buske, S., Sito, L., & Marsden, P. (2022). 3D high-resolution seismic imaging of the iron oxide deposits in Ludvika (Sweden) using full-waveform inversion and reverse time migration. Solid Earth, 13(6). https://doi.org/10.5194/se-13-1065-2022
Górszczyk, A., Brossier, R., & Métivier, L. (2021). Graph-space optimal transport concept for time-domain full-waveform inversion of ocean-bottom seismometer data: Nankai Trough velocity structure reconstructed from a 1D model. Journal of Geophysical Research: Solid Earth, 126, e2020JB021504. doi:10.1029/2020JB021504,
Górszczyk, A. and Operto, S (2021), GO_3D_OBS: the multi-parameter benchmark geomodel for seismic imaging method assessment and next-generation 3D survey design (version 1.0), Geoscientific Model Development, 14, 1773–1799, doi:10.5194/gmd-14-1773-2021,
Sambolian, S., Gorszczyk, A., Operto, S., Ribodetti, A., & Tavakoli F., B. (2021). Mitigating the ill-posedness of first-arrival traveltime tomography using slopes: Application to the eastern Nankai Trough (Japan) OBS data set. Geophysical Journal International, 227(2). https://doi.org/10.1093/gji/ggab262
Górszczyk, A., Operto, S., Schenini, L., and Yamada, Y. (2019), Crustal-scale depth imaging via joint full-waveform inversion of ocean-bottom seismometer data and pre-stack depth migration of multichannel seismic data: a case study from the eastern Nankai Trough, Solid Earth, 10, 765–784, doi:10.5194/se-10-765-2019,
Górszczyk, A., Operto, S., and Malinowski, M. (2017), Toward a robust workflow for deep crustal imaging by FWI of OBS data: The eastern Nankai Trough revisited, Journal of Geophysical Research: Solid Earth, 122, 4601–4630, doi:10.1002/2016JB013891,
Górszczyk, A., Malinowski, M., & Bellefleur, G. (2015). Enhancing 3D post-stack seismic data acquired in hardrock environment using 2D curvelet transform. Geophysical Prospecting, 63(4). https://doi.org/10.1111/1365-2478.12234
Górszczyk, A., Adamczyk, A., & Malinowski, M. (2014). Application of curvelet denoising to 2D and 3D seismic data – Practical considerations. Journal of Applied Geophysics, 105. https://doi.org/10.1016/j.jappgeo.2014.03.009,
