Full list of publications: |
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Citations (Crossref Cited-By Service + Math-Net.Ru) |
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1. |
Bekker M.B., Bohner M.J., Herega A.N., Voulov H., “Spectral analysis of a q-difference operator”, Journal of Physics A: Mathematical and Theoretical, 43:14 (2010), 5207-5221
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12
[x]
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2. |
A. N. Herega, N. G. Drik, A. P. Ugol’nikov, “Hybrid ramified Sierpinski carpet: percolation transition, critical exponents, and force field”, Phys. Usp., 55:5 (2012), 519–521 |
3. |
A. Herega, V. Sukhanov, V. Vyrovoy., “The Model of the Long-Range Effect in Solids: Evolution of Structure Clusters of Interior Boundaries, and Their Statistical Descriptors.”, AIP Conference Proceedings , 020069 (2017), 1909 (2017), 020069 , 4 pp.
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5
[x]
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A. Herega, M. Ostapkevich, “Computer simulation mesostructure of cluster systems.”, AIP Conference Proceedings, 1623 (2014), 209-212
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5
[x]
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A. N. Herega, “Physical aspects of self-organization processes in composites. 1. Simulation of percolation clusters of phases and of inner boundaries.”, Nanomechanics Science and Technology: An International Journal., 4:2 (2013), 119-132
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5
[x]
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Herega A., Sukhanov V., Vyrovoy V., “Multicentric genesis of material structure: Development of the percolation model and some applications”, AIP Conference Proceedings, 1783 (2016), 020072 (1-4)
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3
[x]
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7. |
Alexander Herega, “Development of the Concept of Immediate Neighborhood at the Percolation Models of Composites.”, AIP Conference Proceedings., 1683 (2015), 020071 (1-4).
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3
[x]
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8. |
A. N. Herega, “Physical aspects of self-organization processes in composites. 2. The structure and interaction of inner boundaries.”, Nanomechanics Science and Technology: An International Journal., 4:2 (2013), 133-143
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3
[x]
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9. |
Aslanov A.M., Bekker M.B., Vyrovoj V.N., and Herega A.N., “Imitation Model of Synergetic Processes in Dynamic Disperse Systems: Ξ Criterion”, Technical Physics, 55:1 (2010), 147-150
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3
[x]
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10. |
Aslanov A.M., Herega A.N., Lozovskij T.L., “Two Models of Stochastic Processes in Centrifugal Feedback Filters.”, Technical Physics, 51:6 (2006), 812-813
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3
[x]
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11. |
A. Herega, V. Sukhanov, V. Vyrovoy, Yu. Kryvchenko, “Modeling of self-organizing percolation clusters: Dependence of the structure on history of generation and parameters of the cluster system.”, AIP Conference Proceedings, 2051 (2018), 020105 , 4 pp.
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1
[x]
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12. |
Herega A.N., “On One Criterion of the Relative Degree of Ordering in Images”, Technical Physics, 55:5 (2010), 741-742
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1
[x]
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13. |
A. Herega, “Self-Organization of the Nearest Neighborhoods of Cluster System Elements: Computer Simulation.”, Journal of Materials Science and Engineering A., 12:(4-6) (2022), 67-72 |
14. |
A. Herega, A. Bukaros, L. Lebedieva, H. Trushkov, “Model of Oscillatory Interaction of Four Scaled Levels Defects in Solids: Self-Organization and Conductivity.”, Int. Conf. “Physical Mesomechanics. Materials with Multilevel Hierarchical Structure and Intelligent Manufacturing Technology” (Tomsk, Russia, 5‒9 October 2020), AIP Conference Proceedings, 2310, 2020, 020123 , 4 pp. |
15. |
A. Herega, Development of the Poincare cross-section method: Visualization the three-dimensional sections of four-dimensional flows., 2020 , 10 pp., arXiv: 2011.01206v1 [math.DS] |
16. |
Gerega A.N., Kryvchenko Yu.V., “Model samoorganizatsii blizhaishei okrestnosti elementov perkolyatsionnykh klasterov: zavisimost svoistv ot istorii formirovaniya.”, Fizicheskaya mezomekhanika, 22:4 (2019), 83-94 |
17. |
Herega A., Kryvchenko Yu., “Three-dimensional Poincare cross-sections in the model of oscillatory interaction of different-scaled structures in solids.”, Proc. of 3rd Int. Conf. «Topological methods in dynamics and related topics. Shilnikov workshop» (Nizhny Novgorod, Russia. December 9-13, 2019.), Higher School of Economics, Nizhny Novgorod, 2019, 26-27. |
18. |
Herega A., “Self-organized criticality in the theory of the nearest neighborhood of elements of percolation systems.”, Proc. of 2nd Int. Conf. “Topological methods in dynamics and related topics”. (Nizhny Novgorod, Russia, January 3-6, 2019.), Higher School of Economics, Nizhny Novgorod, 2019, 68-70. |
19. |
Alexander Herega, The Selected Models of the Mesostructure of Composites: Percolation, Clusters, and Force Fields., Springer Briefs in Physics, Springer, Heidelberg, 2018 , 107 pp. |
20. |
A. N. Gerega, Konstruktivnye fraktaly v teorii mnozhestv., Osvita Ukrainy, 2017 , 83 pp. |
21. |
A. N. Gerega, Izbrannye modeli mezostruktury kompozitov. Perkolyatsiya, klastery, silovye polya., Osvita Ukrainy, Odessa, 2016 , 128 pp. |
22. |
A. N. Gerega, “K modeli blizhaishei okrestnosti elementov perkolyatsionnogo klastera”, Mekhanika kompozitsionnykh materialov i konstruktsii, slozhnykh i geterogennykh sred, Trudy VI Vserossiiskoi konferentsii im. I.F. Obraztsova i Yu.G. Yanovskogo (Moskva: IPRIM RAN, 2016), 2, 2016, 96-103 |
23. |
A. Herega, “Some Applications of the Percolation Theory: Brief Review of the Century Beginning.”, Journal of Materials Science and Engineering A., 5:11-12 (2015), 409-414 |
24. |
A. Herega, V. Volkov, “Current Status of the Inner Boundaries: Short Review the Last 30 Years”, International Journal of Composite Materials, 4:5a (2014), 10-15 |
25. |
Formation of Composite Materials: synergetic aspects, phase transitions, cluster formation, hierarchy of structure, transport phenomena, and size effects., Special Issue of International Journal of Composite Materials, V.4, No. 5A., eds. A. Herega, J.I. Velasco, 2014 |
26. |
A. N. Gerega, “Modelirovanie klasternykh struktur v materiale: silovye polya i deskriptory”, Fizicheskaya mezomekhanika, 16:5 (2013), 87-93 |
27. |
A. N. Gerega, “Fizicheskie aspekty protsessov samoorganizatsii v kompozitakh. 1. Modelirovanie perkolyatsionnykh klasterov faz i vnutrennikh granits”, Mekhanika kompozitsionnykh materialov i konstruktsii, 19:3 (2013), 406-419 |
28. |
A. N. Gerega, “Fizicheskie aspekty protsessov samoorganizatsii v kompozitakh. 2. Struktura i vzaimodeistvie interernykh granits”, Mekhanika kompozitsionnykh materialov i konstruktsii, 19:4 (2013), 525-534 |
29. |
A. N. Gerega, “Perkolyatsionnaya model «effekta dalnodeistviya» pri ionnoi implantatsii”, Materialy XVIII mezhdunarodnoi konferentsii po vychislitelnoi mekhanike i sovremennym prikladnym programmnym sistemam (VMSPPS-2013) (Alushta, mai 2013), MAI-PRINT, Moskva, 2013, 59-61 |
30. |
Gerega A.N., Vyrovoi V.N., Drik N.G., “Modelirovanie vnutrennikh granits kak elementov struktury materiala”, Materialy XVII mezhdunarodnoi konferentsii po vychislitelnoi mekhanike i sovremennym prikladnym programmnym sistemam (VMSPPS-2011) (Alushta, 2011), Izd-vo MAI-PRINT, Moskva, 2011, 57-59 |
31. |
Bekker M., Herega A., Lozovskiy T., “Strange Attractors and Chaotic Behavior of a Mathematical Model for a Centrifugal Filter with Feedback”, Advances in Dynamical Systems and Applications, 4:2 (2009), 179-194 |
32. |
Gerega A.N., Lozovskii T.L., “Modelirovanie samoorganizatsii dinamicheskikh dispersnykh sistem. 1.Spontannaya organizatsiya dvukhfaznogo potoka”, Elektronnoe modelirovanie, 30:3 (2008), 3-12 |
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