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Ezen az oldalon az NKFI Elektronikus Pályázatkezelő Rendszerében nyilvánosságra hozott projektjeit tekintheti meg.
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| L.Balázs et al.: 3D Muographic Inversion in the Exploration of Cavities and Low-density Fractured Zones, Geophysical Journal International 236 (2023) 700, 2023 | | L.Oláh et al.: Structural health monitoring of sabo check dams with cosmic-ray muography, iScience 26 (2023) 108019, 2023 | | B.Stefán et al.: Application of MWPC based muography in geophysics, experiments and planning, EGU General Assembly 2024 (Vienna, Austria), 2024 | | L.Balázs et al.: Artifacts in muon tomography, EGU General Assembly 2024 (Vienna, Austria), 2024 | | L.Oláh et al.: Branched Conduit Structure Revealed beneath the Active Craters of Sakurajima Volcano by Muography, JGR Solid Earth 129 (2024) e2023JB028514, 2024 | | R.Alfaro et al.: Characterisation of plastic scintillator paddles and lightweight MWPCs for the MID subsystem of ALICE 3, J.Instrumentation 19 (2024) T04006, 2024 | | G.Galgóczi et al.: Background suppression for volcano muography with machine learning, Mach. Learn. Sci. Technol. 5 (2024) 035032, 2024 | | D.Varga, HKM.Tanaka: Developments of a centimeter-level precise muometric wireless navigation system (MuWNS-V) and its first demonstration using directional information from tracking detectors, Scientific Reports 14 (2024) 7605, 2024 | | L.Oláh et al.: Muon Imaging of Volcanic Conduit Explains Link between Eruption Frequency and Ground Deformation, Geophys.R.L. 50 i2 e2022GL101170, 2023 | | L.Oláh et al.: Földtudományi kutatások és geotechnikai alkalmazások kozmikus müonok mérésével, Magyar Geofizika 63 (2022) 225, 2023 | | D.Varga et al.: Challenges, best practices and case examples in muon imaging, Eur.Geosci.U. General Assembly 2023, 2023 | | K.Bikit et al.: Imaging of low atomic number materials via muon induced secondary particles, RAD 2023: Intetnational Conf. on Radiation (Herceg Novi, Montenegro), 2023 | | L.Oláh et al.: Muography of volcanic and atmospheric hazards at Sakurajima volcano, Japan, International Workshop on Muography (Muographers2023), 2023 | | B.Csatlós et al.: Experimental momentum-binning for muon scattering tomography, International Workshop on Muography (Muographers2023), 2023 | | G.Hamar et al.: Imaging via Cosmic Muon Induced Secondaries, International Workshop on Muography (Muographers2023), 2023 | | G.Galgóczi et al.: Suppressing low energy background in the mMOS detector system with machine learning, International Workshop on Muography (Muographers2023), 2023 | | G.Nyitrai et al.: 3D muon-tomography of an underground crack zone - inversion methodology and validation by drills, International Workshop on Muography (Muographers2023), 2023 | | G.Surányi et al.: Underground muography at Buda Castle, International Workshop on Muography (Muographers2023), 2023 | | D.Varga et al.: Muography instrumentation at the Wigner Research Centre for Physics, International Workshop on Muography (Muographers2023), 2023 | | G.Galgóczi et al.: Background suppression for volcano muography with machine learning, Third MODE workshop for differentiable programming, 2023 | | B.Csatlós et al.: Experimental momentum-binning for muon scattering tomography, J.Adv.Instr.Sci. 2024 (2024) 496 ; International Workshop on Muography (Muographers2023), 2023 | | G.Hamar et al.: Imaging via Cosmic Muon Induced Secondaries, J.Adv.Instr.Sci. 2024 (2024) 494 , International Workshop on Muography (Muographers2023), 2024 | | G.Galgóczi et al.: Suppressing low energy background in the mMOS detector system with machine learning, J.Adv.Instr.Sci. 2024 (2024) 495 , International Workshop on Muography (Muographers2023), 2024 | | G.Surányi et al.: Underground muography at Buda Castle, J.Adv.Instr.Sci. 2024 (2024) 448 , International Workshop on Muography (Muographers2023), 2024 | | G.Nyitrai et al.: Absorption muographic challenges on the surface, International Workshop on Cosmic-Ray Muography, 2021 | | G.Nyitrai, G.Hamar, D.Varga: Toward low gas consumption of muographic tracking detectors in field applications, J.Appl.Phys. 129 (2021) 244901, 2021 | | G.Nyitrai, G.Hamar, D.Varga: Toward low gas consumption of muographic tracking detectors in field applications, J.Appl.Phys. 129 (2021) 244901, 2021 | | G.Hamar, G.Surányi, L.Oláh, D.Varga: Exploration of Underground Cave Systems with Muography, Muography: Exploring Earth's Subsurface with Elementary Particles, Ch-11, AGU Wiley, 2022, 2022 | | G.Hamar et al.: Multi-Wire Detectors for Underground Muography, UIS - 18th International Congress of Speleology, 2022 | | G.Surányi et al.: Cavity Location by Muon Tomography, UIS - 18th International Congress of Speleology, 2022, 2022 | | D.Varga et al.: Construction and Readout Systems for Gaseous Muography Detectors, J.Adv.Instr.Sci. 2022, 307, 2022 | | L.Oláh et al.: Development of Machine Learning Assisted Spectra Analyzer for the NEWCUT Muon Spectrometer, J.Adv.Instr.Sci. 2022, 264, 2022 | | L.Oálh et al.: Muographic monitoring of hydrogeomorphic changes induced by post-eruptive lahars and erosion of Sakurajima volcano, Scientific Reports 11, 17729, 2021 | | L.Oláh et al.: Muography of the active Sakurajima volcano: recent results and future perspectives of hazard assessment, J.Adv.Instr.Sci. 2022, 285, 2022 | | G.Hamar et al.: Application of Portable Gaseous Detectors for Underground Muography, International Workshop on Cosmic-Ray Muography (Ghent, Belgium), 2021 | | G.Hamar et al.: Gaseous Tracking Detectors at the Sakurajima Muography Observatory, TIPP: International Conference on Technology and Instrumentation in Particle Physics, Online, 2021 | | G.Hamar et al.: Underground Muography with Portable Gaseous Detectors, TIPP: International Conference on Technology and Instrumentation in Particle Physics, Online, 2021 | | G.Nyitrai et al.: Overview of muography in geoscientific research, Eur.Geosci.U. General Assembly 2022, 2022 | | G.Hamar et al.: Multi-Wire Detectors for Underground Muography, UIS proc. 2022 ICS Vol.6. 123, 2022 | | G.Surányi et al.: Cavity Location by Muon Tomography, UIS proc. 2022 ICS Vol.6. 119, 2022 | | G.Hamar et al.: Gaseous Tracking Detectors at the Sakurajima Muography Observatory, J.Phys.Conf.Ser. 2374 (TIPP) 012188, 2023 | | G.Hamar et al.: Underground Muography with Portable Gaseous Detectors, J.Phys.Conf.Ser. 2374 (TIPP) 012186, 2023 | | G.Nyitrai et al.: Low gas consumption in tracking detectors for outdoor applications, J.Phys.Conf.Ser. 2374 (TIPP) 012181, 2023 | | G.Surányi: Application examples of underground muography, Eur.Geosci.U. General Assembly 2022, 2022 | | G.Nyitrai et al.: Overview of muography in geoscientific research, Eur.Geosci.U. General Assembly 2022, 2022 | | M.Holma et al.: Exploration and resource delineation of bauxite deposits using cosmic-ray muons, SGA BM 2022 proc , 141, 2022 | | G.Hamar et al.: Novel Muon Imaging Technologies for Material Identification, IEEE Nulcear Sci.Symposium 2022, 2022 | | G.Galgóczi et al.: Material analysis using cosmic muons and their induced secondary particles, IEEE Nulcear Sci.Symposium 2022, 2022 | | B.Stefán et al.: Müográfiai képalkotás inverziós problémái, Inverziós Ankét, Miskolc, 2022 | | Á.Gera et al.: Gaseous detectors for field applications: Quality control, thermal and mechanical stability, Instruments 6 (2022) 74, 2023 | | L.Oláh et al.: Muography of Sakurajima Volcano: Volcanological Implications, Muographers General Assembly 2022, 2022 | | D.Varga et al.: Underground muography and tomography, Muographers General Assembly 2022, 2022 | | G.Galgóczi et al.: Understanding muon tracking: signal and background, Muographers General Assembly 2022, 2022 | | G.Hamar et al.: Advanced gaseous detectors for cosmic ray imaging, Muographers General Assembly 2022, 2022 | | K.Bikit et al.: Muon detection system for imaging of organic structures, ELICSIR Project Symposium (Nis, Serbia), 2023 |
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