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Pál Gergő

Pál Gergő

Teljes publikációs lista

2024
1.
Kun, F., Allan, L., Batool, A., Danku, Z., Pál, G.: Failure process of fiber bundles with random misalignment.
Phys. Rev. Research. 6 (3), 1-11, (cikkazonosító: 033344), 2024.
Folyóirat-mutatók:
D1 Physics and Astronomy (miscellaneous) (2023)
2023
2.
Pál, G., Danku, Z., Batool, A., Kádár, V., Yoshioka, N., Ito, N., Ódor, G., Kun, F.: Scaling laws of failure dynamics on complex networks.
Sci. Rep. 13 (1), 1-12, (cikkazonosító: 19733), 2023.
Folyóirat-mutatók:
D1 Multidisciplinary
3.
Danku, Z., Pál, G., Kun, F.: Size scaling of failure strength at high disorder.
Physica A. 624, 1-8, (cikkazonosító: 128994), 2023.
Folyóirat-mutatók:
Q2 Condensed Matter Physics
Q2 Statistical and Nonlinear Physics
Q2 Statistics and Probability
2022
4.
Kádár, V., Danku, Z., Pál, G., Kun, F.: Approach to failure through record breaking avalanches in a heterogeneous stress field.
Physica A. 594, 1-12, (cikkazonosító: 127015), 2022.
Folyóirat-mutatók:
Q2 Condensed Matter Physics
Q2 Statistical and Nonlinear Physics
Q2 Statistics and Probability
5.
Batool, A., Danku, Z., Pál, G., Kun, F.: Temporal evolution of failure avalanches of the fiber bundle model on complex networks.
Chaos. 32 (6), 1-10, 2022.
Folyóirat-mutatók:
Q2 Applied Mathematics
Q1 Mathematical Physics
Q2 Medicine (miscellaneous)
Q1 Physics and Astronomy (miscellaneous)
Q2 Statistical and Nonlinear Physics
6.
Batool, A., Pál, G., Danku, Z., Kun, F.: Transition from localized to mean field behaviour of cascading failures in the fiber bundle model on complex networks.
Chaos Solitons Fractals. 159, 1-11, 2022.
Folyóirat-mutatók:
D1 Applied Mathematics
Q1 Mathematical Physics
D1 Mathematics (miscellaneous)
Q1 Physics and Astronomy (miscellaneous)
Q1 Statistical and Nonlinear Physics
2021
7.
Pál, G., Domokos, G., Kun, F.: Curvature flows, scaling laws and the geometry of attrition under impacts.
Sci. Rep. 11 (1), 1-8, 2021.
Folyóirat-mutatók:
D1 Multidisciplinary
2020
8.
Batool, A., Pál, G., Kun, F.: Impact-induced transition from damage to perforation.
Phys. Rev. E. 102 (4), 1-11, 2020.
Folyóirat-mutatók:
Q1 Condensed Matter Physics
Q2 Statistical and Nonlinear Physics
Q2 Statistics and Probability
9.
Kádár, V., Pál, G., Kun, F.: Record statistics of bursts signals the onset of acceleration towards failure.
Sci. Rep. 10 (1), 1-12, 2020.
Folyóirat-mutatók:
D1 Multidisciplinary
2019
10.
Kun, F., Pál, G., Varga, I., Main, I. G.: Effect of disorder on the spatial structure of damage in slowly compressed porous rocks.
Philos. Trans. R. Soc. A-Math. Phys. Eng. Sci. 377 (2136), 1-14, 2019.
Folyóirat-mutatók:
D1 Engineering (miscellaneous)
Q1 Mathematics (miscellaneous)
Q1 Physics and Astronomy (miscellaneous)
2016
11.
Pál, G., Jánosi, Z., Kun, F., Main, I. G.: Fragmentation and shear band formation by slow compression of brittle porous media.
Phys. Rev. E. 94 (5), 053003-1 - 053003-8, 2016.
Folyóirat-mutatók:
Q1 Condensed Matter Physics
Q1 Statistical and Nonlinear Physics
Q1 Statistics and Probability
12.
Pál, G., Kun, F.: Mass-velocity correlation in impact induced fragmentation of heterogeneous solids.
Granular Matter. 18 (74), 1-11, 2016.
Folyóirat-mutatók:
Q1 Materials Science (miscellaneous)
Q1 Mechanics of Materials
Q1 Physics and Astronomy (miscellaneous)
13.
Pál, G., Raischel, F., Lennartz-Sassinek, S., Kun, F., Main, I. G.: Record-breaking events during the compressive failure of porous materials.
Phys. Rev. E. 93 (3), 033006-1 - 033006-10, 2016.
Folyóirat-mutatók:
Q1 Condensed Matter Physics
Q1 Statistical and Nonlinear Physics
Q1 Statistics and Probability
2014
14.
Pál, G., Varga, I., Kun, F.: Emergence of energy dependence in the fragmentation of heterogeneous materials.
Phys. Rev. E. 90 (6), 062811-1 - 062811-8, 2014.
Folyóirat-mutatók:
Q1 Condensed Matter Physics
Q1 Statistical and Nonlinear Physics
Q2 Statistics and Probability
15.
Pál, G., Varga, I., Kun, F.: Emergence of energy dependence in the fragmentation of heterogeneous materials.
Acta Phys. Debr. 48, 1-7, 2014.
16.
Pál, G., Varga, I., Kun, F.: Mass-velocity correlation in impact fragmentation.
Key Eng. Mater. 592-593, 141-144, 2014.
Folyóirat-mutatók:
Q3 Mechanical Engineering
Q3 Materials Science (miscellaneous)
Q4 Mechanics of Materials
2013
17.
Pál, G., Varga, I., Kadono, T., Kun, F.: Effect of spatial dimension on impact fragmentation.
Acta Phys. Debr. 47, 129-135, 2013.
2012
18.
Pál, G., Kun, F., Kadono, T.: Impact fragmentation of plate-like objects.
Acta Phys. Debr. 46, 113-121, 2012.
19.
Glodán, G., Iguchi, Y., Cserháti, C., Pál, G., Mashimo, T., Beke, D. L.: Interdiffusion in InSb/Zn/InSb system.
Defect Diffus. Forum. 323-325, 571-575, 2012.
Folyóirat-mutatók:
Q4 Condensed Matter Physics
Q3 Materials Science (miscellaneous)
Q4 Radiation
2011
20.
Pál, G., Kun, F., Varga, I., Sohler, D., Sun, G.: Attraction-driven aggregation of dipolar particles in an external magnetic field.
Phys. Rev. E. 83 (6), 061504-1 - 061504-7, 2011.
Folyóirat-mutatók:
Q1 Condensed Matter Physics
Q1 Statistical and Nonlinear Physics
Q1 Statistics and Probability
2010
21.
Glodán, G., Cserháti, C., Beszeda, I., Pál, G., Beke, D. L.: Interdiffusion in Au/Ag and INSB/Zn/INSB systems.
Acta Phys. Debr. 44, 24-36, 2010.
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