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statphys
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statphys
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 == Papers == == Papers ==
 +  - M. Yang, R. Laubenbacher,​ and B. Min, Biconnectivity and structural robustness in directed networks, in preparation (2026).
 +  - J. Choi, K. Lee, D.-H. Lee, B. Min, and T.-S. Chon, Spatially explicit population modeling with habitat preferential movement of Glis glis (Edible dormouse), submitted (2026); [[https://​arxiv.org/​abs/​2504.03104| arXiv:​2504.03104]]
 +  - F. Battiston, M. Frasca, J. Gomez-Gardenes,​ B. Min, F. Radicchi, A. Santoro, and V. Latora, [[https://​arxiv.org/​abs/​2605.04199|Dynamical processes and emergent behaviors in multiplex networks]], submitted (2026); [[https://​arxiv.org/​abs/​2605.04199| arXiv:​2605.04199]]
   - H. Jang, G. Bianconi, and B. Min, [[https://​arxiv.org/​abs/​2603.22089| Feedback percolation on complex networks]], submitted (2026); [[https://​arxiv.org/​abs/​2603.22089| arXiv:​2603.22089]]   - H. Jang, G. Bianconi, and B. Min, [[https://​arxiv.org/​abs/​2603.22089| Feedback percolation on complex networks]], submitted (2026); [[https://​arxiv.org/​abs/​2603.22089| arXiv:​2603.22089]]
   - B. Min, J. Choi, and R. Laubenbacher,​ [[https://​pubs.aip.org/​aip/​cha/​article-abstract/​36/​2/​023142/​3380900/​Dynamics-of-attractor-transitions-in-Boolean | Dynamics of attractor transitions in Boolean networks under noise]], Chaos 36, 023142 (2026); [[https://​arxiv.org/​abs/​2506.15581 | arXiv:​2506.15581]]   - B. Min, J. Choi, and R. Laubenbacher,​ [[https://​pubs.aip.org/​aip/​cha/​article-abstract/​36/​2/​023142/​3380900/​Dynamics-of-attractor-transitions-in-Boolean | Dynamics of attractor transitions in Boolean networks under noise]], Chaos 36, 023142 (2026); [[https://​arxiv.org/​abs/​2506.15581 | arXiv:​2506.15581]]
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   - B. Min and M. San Miguel, [[https://​www.nature.com/​articles/​s41598-018-32643-4| Competition and dual users in complex contagion processes]],​ Sci. Rep. 8, 14580 (2018); [[https://​arxiv.org/​abs/​1801.09464|arXiv:​1801.09464]]   - B. Min and M. San Miguel, [[https://​www.nature.com/​articles/​s41598-018-32643-4| Competition and dual users in complex contagion processes]],​ Sci. Rep. 8, 14580 (2018); [[https://​arxiv.org/​abs/​1801.09464|arXiv:​1801.09464]]
   - B. Min and M. San Miguel, [[https://​www.nature.com/​articles/​s41598-018-28615-3| Competing contagion processes: complex contagion triggered by simple contagion]],​ Sci. Rep. 8, 10422 (2018); [[https://​arxiv.org/​abs/​1712.05059|arXiv:​1712.05059]]   - B. Min and M. San Miguel, [[https://​www.nature.com/​articles/​s41598-018-28615-3| Competing contagion processes: complex contagion triggered by simple contagion]],​ Sci. Rep. 8, 10422 (2018); [[https://​arxiv.org/​abs/​1712.05059|arXiv:​1712.05059]]
-  - G. Del Ferraro, ​et al., B. Min (3rd)et al., [[https://​www.nature.com/​articles/​s41467-018-04718-3|Finding influential nodes for integration in brain networks using optimal percolation theory]], Nat. Commun. 9, 2274 (2018); [[https://​arxiv.org/​abs/​1806.07903|arXiv:​1806.07903]]+  - G. Del Ferraro, ​AMoreno, B. Min, FMorone, U, Perez-Ramirez,​ L. Perez-Cervera,​ L. C. Parra, A. Holodny, S. Canals, and H. A. Makse, [[https://​www.nature.com/​articles/​s41467-018-04718-3|Finding influential nodes for integration in brain networks using optimal percolation theory]], Nat. Commun. 9, 2274 (2018); [[https://​arxiv.org/​abs/​1806.07903|arXiv:​1806.07903]]
   - B. Min and M. Zheng, [[http://​journals.plos.org/​plosone/​article?​id=10.1371/​journal.pone.0195539|Correlated network of networks enhances robustness against catastrophic failures]], PLoS ONE 13(4), e0195539 (2018); [[https://​arxiv.org/​abs/​1711.05317|arXiv:​1711.05317]]   - B. Min and M. Zheng, [[http://​journals.plos.org/​plosone/​article?​id=10.1371/​journal.pone.0195539|Correlated network of networks enhances robustness against catastrophic failures]], PLoS ONE 13(4), e0195539 (2018); [[https://​arxiv.org/​abs/​1711.05317|arXiv:​1711.05317]]
   - B. Min, [[https://​link.springer.com/​article/​10.1140/​epjb/​e2017-80597-1|Identifying an influential spreader from a single seed in complex networks via a message-passing approach]], Eur. Phys. J. B 91, 18 (2018); [[https://​arxiv.org/​abs/​1710.07064|arXiv:​1710.07064]]   - B. Min, [[https://​link.springer.com/​article/​10.1140/​epjb/​e2017-80597-1|Identifying an influential spreader from a single seed in complex networks via a message-passing approach]], Eur. Phys. J. B 91, 18 (2018); [[https://​arxiv.org/​abs/​1710.07064|arXiv:​1710.07064]]