Tudóstér: Nagy Gyula publikációi

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feltöltött közlemény: 22 Open Access: 6
2022
  1. Nady, E., Nagy, G., Huszánk, R.: Improvement in mixing efficiency of microfluidic passive mixers functionalized by microstructures created with proton beam lithography.
    Chem. Eng. Sci. 247 1-8, 2022.
    Folyóirat-mutatók:
    Q1 Applied Mathematics
    Q1 Chemical Engineering (miscellaneous)
    Q1 Chemistry (miscellaneous)
    Q1 Industrial and Manufacturing Engineering
2021
  1. Nady, E., Nagy, G., Huszánk, R.: Functionalization of microfluidic devices by microstructures created with proton beam lithography.
    Vacuum. 190 1-9, 2021.
    Folyóirat-mutatók:
    Q2 Condensed Matter Physics
    Q1 Instrumentation
    Q1 Surfaces, Coatings and Films
2019
  1. Molnár, S., Bohdan, R., Nagy, G., Rajta, I., Illés, L., Csik, A., Kökényesi, S.: Direct surface patterning of amorphous chalcogenide layers with high- energy H+ and He+ ion beams.
    J. Mater. Sci.-Mater. Electron. 30 (16), 15331-15338, 2019.
    Folyóirat-mutatók:
    Q2 Atomic and Molecular Physics, and Optics
    Q3 Bioengineering
    Q3 Biomaterials
    Q3 Biomedical Engineering
    Q3 Biophysics
    Q2 Condensed Matter Physics
    Q2 Electrical and Electronic Engineering
    Q2 Electronic, Optical and Magnetic Materials
  2. Rajta, I., Nagy, G., Vajda, I., Szilasi, S., Grime, G., Watt, F.: First resolution test results of the Atomki nuclear nanoprobe.
    Nucl. Instrum. Methods Phys. Res. Sect. B-Beam Interact. Mater. Atoms. 449 94-98, 2019.
    Folyóirat-mutatók:
    Q2 Instrumentation
    Q3 Nuclear and High Energy Physics
  3. Nagy, G., Kerékgyártó, R., Csik, A., Daróczi, L., Rajta, I.: Morphological changes of poly(tetrafluoroethylene) surface due to low current density proton irradiation.
    Nucl. Instrum. Methods Phys. Res. Sect. B-Beam Interact. Mater. Atoms. 449 71-74, 2019.
    Folyóirat-mutatók:
    Q2 Instrumentation
    Q3 Nuclear and High Energy Physics
  4. Romanenko, O., Cutroneo, M., Havranek, V., Mackova, A., Davidkova, M., Ponomarev, A., Nagy, G., Stammers, J.: Performance and application of heavy ion nuclear microbeam facility at the Nuclear Physics Institute in Řež, Czech Republic.
    Rev. Sci. Instrum. 90 (1), 1-12, 2019.
    Folyóirat-mutatók:
    Q2 Instrumentation
    Q2 Medicine (miscellaneous)
  5. Nagy, G., Giglio, E., Rajta, I., Tőkési, K.: Transmission dynamics of 1 MeV H+ microbeam guided through an insulating macrocapillary.
    Nucl. Instrum. Methods Phys. Res. Sect. B-Beam Interact. Mater. Atoms. 460 216-219, 2019.
    Folyóirat-mutatók:
    Q2 Instrumentation
    Q3 Nuclear and High Energy Physics
2018
  1. Nichol, T., Nagy, G., Huszánk, R., Tenne, D., Kozicki, M., Barnaby, H., Rajta, I., Mitkova, M.: Proton beam effects on Ge-Se/Ag thin films.
    Phys. Status Solidi B-Basic Solid State Phys. 255 (6), 1-7, 2018.
    Folyóirat-mutatók:
    Q2 Condensed Matter Physics
    Q2 Electronic, Optical and Magnetic Materials
2017
  1. Nagy, G., Lavrentiev, V., Bányász, I., Szilasi, S., Havranek, V., Voseček, V., Huszánk, R., Rajta, I.: Compaction of polydimethylsiloxane due to nitrogen ion irradiation and its application for creating microlens arrays.
    Thin Solid Films. 636 634-638, 2017.
    Folyóirat-mutatók:
    Q2 Electronic, Optical and Magnetic Materials
    Q2 Materials Chemistry
    Q2 Metals and Alloys
    Q2 Surfaces and Interfaces
    Q2 Surfaces, Coatings and Films
  2. Giglio, E., Guillous, S., Cassimi, A., Zhang, H., Nagy, G., Tőkési, K.: Evolution of the electric potential of an insulator under charged particle impact.
    Phys. Rev. A. 95 1-5, 2017.
    Folyóirat-mutatók:
    Q1 Atomic and Molecular Physics, and Optics
  3. Nagy, G., Szilasi, S., Rajta, I., Tőkési, K.: Simulation of the time evolution of 1 MeV proton microbeam transmission through an insulating macrocapillary.
    Nucl. Instrum. Methods Phys. Res. Sect. B-Beam Interact. Mater. Atoms. 406 417-420, 2017.
    Folyóirat-mutatók:
    Q2 Instrumentation
    Q2 Nuclear and High Energy Physics
  4. Ponomarov, A., Rajta, I., Nagy, G., Romanenko, O.: Single-stage quintuplet for upgrading triplet based lens system: Simulation for Atomki microprobe.
    Nucl. Instrum. Methods Phys. Res. Sect. B-Beam Interact. Mater. Atoms. 404 34-40, 2017.
    Folyóirat-mutatók:
    Q2 Instrumentation
    Q2 Nuclear and High Energy Physics
2016
  1. Nagy, G., Rajta, I., Tőkési, K.: 2D simulation of 1 MeV proton microbeam transmission through an insulating macrocapillary.
    In: Contributed Papers & Abstracts of Invited Lectures, Topical Invited Lectures, Progress Reports and Workshop Lectures. Eds.: Dragana Marić, Aleksandar Milosavljević, Bratislav Obradović, Goran Poparić, University of Belgrade, Belgrade, 170-173, 2016. ISBN: 9788684539146
  2. Rajta, I., Huszánk, R., Szabó, A., Nagy, G., Szilasi, S., Fürjes, P., Holczer, E., Fekete, Z., Járvás, G., Szigeti, M., Hajba, L., Bodnár, J., Guttman, A.: Tilted pillar array fabrication by the combination of proton beam writing and soft lithography for microfluidic cell capture: Part 1 Design and feasibility.
    Electrophoresis. 37 (3), 498-503, 2016.
    Folyóirat-mutatók:
    Q1 Analytical Chemistry
    Q2 Biochemistry
    Q2 Clinical Biochemistry
2015
  1. Kuznik, W., Fuks-Janczarek, I., Wojciechowski, A., Kityk, I., Kiisk, V., Majchrowski, A., Jaroszewicz, L., Brik, M., Nagy, G.: Absorption, fluorescence and second harmonic generation in Cr3+ -doped BiB3O6 glasses.
    Spectroc. Acta Pt. A-Molec. Biomolec. Spectr. 145 325-328, 2015.
    Folyóirat-mutatók:
    Q2 Analytical Chemistry
    Q2 Atomic and Molecular Physics, and Optics
    Q1 Instrumentation
    Q2 Spectroscopy
  2. Nagy, G., Rajta, I., Bereczky, R., Tőkési, K.: Energy distribution of proton microbeam transmitted through two flat plates.
    Nucl. Instrum. Methods Phys. Res. Sect. B-Beam Interact. Mater. Atoms. 354 317-320, 2015.
    Folyóirat-mutatók:
    Q1 Instrumentation
    Q2 Nuclear and High Energy Physics
  3. Nagy, G., Rajta, I., Bereczky, R., Tőkési, K.: Incident beam intensity dependence of the charge-up process of the guiding of 1 MeV proton microbeam through a Teflon microcapillary.
    Eur. Phys. J. D. 69 (102), 1-4, 2015.
    Folyóirat-mutatók:
    Q3 Atomic and Molecular Physics, and Optics
  4. Rajta, I., Nagy, G., Bereczky, R., Tőkési, K.: Interaction of proton microbeam with the inner surface of a polytetrafluoroethylene macrocapillary.
    Nucl. Instrum. Methods Phys. Res. Sect. B-Beam Interact. Mater. Atoms. 354 328-331, 2015.
    Folyóirat-mutatók:
    Q1 Instrumentation
    Q2 Nuclear and High Energy Physics
2014
  1. Tőkési, K., Rajta, I., Nagy, G., Bereczky, R.: Can the ions be guided with MeV/amu energies? The case of the 1 MeV proton microbeam.
    J. Phys.: Conf. Ser. 488 132019, 2014.
  2. Bányász, I., Rajta, I., Nagy, G., Zolnai, Z., Havranek, V., Pelli, S., Veres, M., Berneschi, S., Nunzi-Conti, G., Righini, G.: Fabrication of optical channel waveguides in crystals and glasses using macro- and micro ion beams.
    Nucl. Instrum. Methods Phys. Res. Sect. B-Beam Interact. Mater. Atoms. 331 157-162, 2014.
    Folyóirat-mutatók:
    Q2 Instrumentation
    Q3 Nuclear and High Energy Physics
  3. Nagy, G., Rajta, I., Bereczky, R., Tőkési, K.: Guiding of MeV ion beams.
    In: CEPAS 2014 : Contributed Papers. Eds.: Štefan Matejčík, Peter Papp, Ondrej Bogár, Comenius University, Bratislava, 11-12, 2014. ISBN: 9788081470219
2013
  1. Nagy, G., Rajta, I., Bereczky, R., Tőkési, K.: Experimental setup for studying guiding of proton microbeam.
    AIP Conf. Proc. 1525 40-42, 2013.
feltöltött közlemény: 22 Open Access: 6
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