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Topographically Predicted Vertical Gravity Gradient Field and Its Applicability in 3D and 4D Microgravimetry: Etna (Italy) Case Study
Title Topographically Predicted Vertical Gravity Gradient Field and Its Applicability in 3D and 4D Microgravimetry: Etna (Italy) Case Study Author Vajda Peter 1966 SAVUVOZ ; SAVGEOF - Ústav vied o Zemi SAV SCOPUS RID ORCID Co-authors Zahorec Pavol 1975 SAVUVOZ ; SAVGEOF - Ústav vied o Zemi SAV SCOPUS SCOPUS ORCID Papčo Juraj Carbone Daniele Greco Filippo Cantarero Massimo Source document Pure and Applied Geophysics. Vol. 177, no. 7 (2020), p. 3315-333 Language eng - English Country CH - Switzerland Document kind rozpis článkov z periodík (rbx) Citations TAN, Xuli - WANG, Qingbin - FENG, Jinkai - HUANG, Yan - HUANG, Ziyan. Fast modeling of gravity gradients from topographic surface data using GPU parallel algorithm. In GEODESY AND GEODYNAMICS. ISSN 1674-9847, 2021, vol. 12, no. 4, p. 288-297. AKDOGAN, Y. A. - AHI, G. O. - YILDIZ, H. Free-air vertical gravity gradient modelling and its validation. In BULLETIN OF GEOPHYSICS AND OCEANOGRAPHY. ISSN 2785-339X, 2022, vol., no., pp. Dostupné na: https://doi.org/10.4430/bgo00385. Category ADCA - Scientific papers in foreign journals registered in Current Contents Connect with IF (impacted) Category of document (from 2022) V3 - Vedecký výstup publikačnej činnosti z časopisu Type of document článok Year 2020 Registered in WOS Registered in SCOPUS Registered in CCC DOI 10.1007/s00024-020-02435-x 
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File name Access Size Downloaded Type License topografically.pdf available 6.3 MB 0 Postprint Topographically PredictedVertic.pdf Neprístupný/archív 6.3 MB 0 Publisher's version rok CC IF IF Q (best) JCR Av Jour IF Perc SJR SJR Q (best) CiteScore A rok vydania rok metriky IF IF Q (best) SJR SJR Q (best) 2020 2019 1.586 Q3 0.593 Q2
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