Tudóstér: Danku Zsuzsa publikációi

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feltöltött közlemény: 28 Open Access: 10
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, 2024.
    Folyóirat-mutatók:
    D1 Physics and Astronomy (miscellaneous) (2023)
2023
  1. 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, 2023.
    Folyóirat-mutatók:
    D1 Multidisciplinary
  2. Danku, Z., Pál, G., Kun, F.: Size scaling of failure strength at high disorder.
    Physica A. 624 1-8, 2023.
    Folyóirat-mutatók:
    Q2 Condensed Matter Physics
    Q2 Statistical and Nonlinear Physics
    Q2 Statistics and Probability
2022
  1. 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, 2022.
    Folyóirat-mutatók:
    Q2 Condensed Matter Physics
    Q2 Statistical and Nonlinear Physics
    Q2 Statistics and Probability
  2. 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
  3. 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
2017
  1. Kádár, V., Danku, Z., Kun, F.: Size scaling of failure strength with fat-tailed disorder in a fiber bundle model.
    Phys. Rev. E. 96 (3), 1-6, 2017.
    Folyóirat-mutatók:
    Q1 Condensed Matter Physics
    Q1 Statistical and Nonlinear Physics
    Q2 Statistics and Probability
2016
  1. Danku, Z., Kun, F.: Fracture process of a fiber bundle with strong disorder.
    J. Stat. Mech.-Theory Exp. 7 073211-1-17, 2016.
    Folyóirat-mutatók:
    Q3 Statistical and Nonlinear Physics
    Q3 Statistics and Probability
    Q3 Statistics, Probability and Uncertainty
2015
  1. Danku, Z., Kun, F., Herrmann, H.: Fractal frontiers of bursts and cracks in a fiber bundle model of creep rupture.
    Phys. Rev. E. 92 (6), 062402-1-17, 2015.
    Folyóirat-mutatók:
    Q1 Condensed Matter Physics
    Q1 Statistical and Nonlinear Physics
    Q2 Statistics and Probability
  2. Danku, Z., Kun, F.: Record breaking events in crackling time series.
    In: International Conference on Computational Modeling of Fracture and Failure, CCSD Centre pour la Communication Scientifique Directe, Cachan, 244, 2015.
  3. Danku, Z., Kun, F.: Record breaking events in crackling time series.
    In: 40th Conference of the Middle European Cooperation in Statistical Physics, MECO40 : 23-25 March 2015, Esztergom, Hungary
  4. Danku, Z., Lenkey, G., Kun, F.: Statistical features of magnetic noise in mixed-type impact fracture.
    Appl. Phys. Lett. 106 (6), 064102-1-4, 2015.
    Folyóirat-mutatók:
    Q1 Physics and Astronomy (miscellaneous)
2014
  1. Danku, Z., Kun, F.: Crackling noise in a fiber bundle model of creep rupture.
    In: International Conference Smart functional materials for shaping our future, 19-20 September 2014 Debrecen, Hungary. Programme and book of abstracts. Ed.: Attila Csík, University of Debrecen, Debrecen, 42, 2014. ISBN: 9789634737247
  2. Danku, Z., Kun, F.: Record breaking bursts in a fiber bundle model of creep rupture.
    Front. Physics. 2 [8], 2014.
  3. Danku, Z., Kun, F.: Statistics of records in crackling time series.
    Acta Phys. Debr. 48 1-9, 2014.
  4. Danku, Z., Kun, F.: Temporal and Spatial Evolution of Bursts in a Fiber Bundle Model of Creep Rupture.
    Key Eng. Mater. 592-593 773-776, 2014.
2013
  1. Danku, Z., Kun, F.: Bursts in a fiber bundle model of creep rupture.
    Acta Phys. Debr. 47 43-47, 2013.
  2. Danku, Z., Kun, F.: Creep rupture as a non-homogeneous Poissonian process.
    Sci. Rep. 3 2688-1-5, 2013.
    Folyóirat-mutatók:
    D1 Multidisciplinary
  3. Danku, Z., Kun, F.: Damage enhanced creep in the fiber bundle model.
    In: Computational Modeling of Fracture and Failure of Materials and Structures Proceedings of CFRAC 2013. Ed.: M. Jirásek, O. Allix, N. Moes, J. Oliver, Czech Technical University in Prague, Faculty of Civil Engineering, Prága, 71, 2013. ISBN: 9788001052792
  4. Lennartz-Sassinek, S., Danku, Z., Kun, F., Main, I., Zaiser, M.: Damage growth in fibre bundle models with localized load sharing and environmentally-assisted ageing.
    J. Phys.: Conf. Ser. 410 012064-1-5, 2013.
    Folyóirat-mutatók:
    Q3 Physics and Astronomy (miscellaneous)
  5. Danku, Z., Kun, F.: Repedési zaj a szálköteg modellben.
    In: Magyar Fizikus Vándorgyűlés, Debreceni Egyetem : MTA Atommagkutató Intézet, Debrecen, 79, 2013.
  6. Danku, Z., Kun, F.: Temporal and Spacial Evolution of Bursts in Creep Rupture.
    Phys. Rev. Lett. 111 (8), 084302-1-5, 2013.
    Folyóirat-mutatók:
    D1 Physics and Astronomy (miscellaneous)
  7. Lennartz-Sassinek, S., Main, I., Danku, Z., Kun, F.: Time evolution of damage due to environmentally assisted aging in a fiber bundle model.
    Phys. Rev. E. 88 (3), 032802-1-9, 2013.
    Folyóirat-mutatók:
    Q1 Condensed Matter Physics
    Q1 Statistical and Nonlinear Physics
    Q2 Statistics and Probability
2012
  1. Halász, Z., Danku, Z., Kun, F.: Competition of strength and stress disorder in creep rupture.
    Phys. Rev. E. 85 (1), 016116-1-8, 2012.
    Folyóirat-mutatók:
    Q1 Condensed Matter Physics
    Q1 Statistical and Nonlinear Physics
    Q1 Statistics and Probability
  2. Danku, Z., Halász, Z., Kun, F.: Competition of strength and stress disorder in creep rupture.
    In: 37th Conference of the Middle European Cooperation in Statistical Physics : Programme and abstracts, Slovak Physical Society, Bratislava, 51, 2012.
  3. Danku, Z., Kun, F.: Time series analysis of creep rupture.
    Acta phys. Debr. 46 37-45, 2012.
2008
  1. Szolnoki, A., Perc, M., Danku, Z.: Making new connections towards cooperation in the prisoner's dilemma game.
    Europhys. Lett. 84 (5), 50007-1-6, 2008.
    Folyóirat-mutatók:
    Q1 Physics and Astronomy (miscellaneous)
  2. Szolnoki, A., Perc, M., Danku, Z.: Towards effective payoffs in the prisoner's dilemma game on scale-free networks.
    Physica A. 387 (8-9), 2075-2082, 2008.
    Folyóirat-mutatók:
    Q2 Condensed Matter Physics
    Q2 Statistics and Probability
feltöltött közlemény: 28 Open Access: 10
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