References
- Adami, C., & Hintze, A. (2018). Thermodynamics of evolutionary games. Physical Review E, 97, 062136.
- Barrat, A., Barthelemy, M., & Vespignani, A. (2008). Dynamical processes on complex networks. New York: Cambridge University Press.
- Boyd, R. (2018). A different kind of animal: How culture transformed our species. Princeton, NJ: Princeton University Press.
- Bruggeman, J., & Sprik, R. (2020). Cooperation for public goods under uncertainty. (arXiv:2001.02677)
- Castellano, C., Fortunato, S., & Loreto, V. (2009). Statistical physics of social dynamics. Reviews of Modern Physics, 81, 591.
- Collins, R. (2008). Violence: A micro-sociological theory. Princeton: Princeton University Press.
- Dion, D., & Axelrod, R. (1988). The further evolution of cooperation. Science, 242, 1385–1390.
- Durkheim, E. (1912). Les forms élémentaires de la vie religieuse. Paris: Presses Universitaires de France.
- Fehr, E., & Fischbacher, U. (2003). The nature of human altruism. Nature, 425, 785.
- Friedkin, N. E., & Johnsen, E. C. (2011). Social influence network theory: A sociological examination of small group dynamics. Cambridge, MA: Cambridge University Press.
- Galam, S., Gefen, Y., & Shapir, Y. (1982). Sociophysics: A new approach of sociological collective behaviour: Mean-behaviour description of a strike. Journal of Mathematical Sociology, 9, 1–13.
- Gavrilets, S. (2015). Collective action problem in heterogeneous groups. Philosophical Transactions of the Royal Society B, 370, 20150016.
- Goldstone, J. A. (2001). Toward a fourth generation of revolutionary theory. Annual Review of Political Science, 4, 139–187.
- Hardin, G. (1968). The tragedy of the commons. Science, 162, 1243–1248.
- Hussain, M. M., & Howard, P. N. (2013). What best explains successful protest cascades? ICTs and the fuzzy causes of the Arab Spring. International Studies Review, 15, 48–66.
- Johnson, N. F., Zheng, M., Vorobyeva, Y., Gabriel, A., Qi, H., Velásquez, N., & others. (2016). New online ecology of adversarial aggregates: Isis and beyond. Science, 352, 1459–1463.
- Jones, D. (2013). The ritual animal. Nature, 493, 470–472.
- Jones, F. L. (1985). Simulation models of group segregation. The Australian and New Zealand Journal of Sociology, 21, 431–444.
- Konvalinka, I., Xygalatas, D., Bulbulia, J., Schjødt, U., Jegindø, E.-M., Wallot, S., … Roepstorff, A. (2011). Synchronized arousal between performers and related spectators in a fire-walking ritual. Proceedings of the National Academy of Sciences, 108, 8514–8519.
- Lewenstein, M., Nowak, A., & Latané, B. (1992). Statistical mechanics of social impact. Physical Review A, 45, 763–776.
- Lohmann, S. (1994). The dynamics of informational cascades: The Monday demonstrations in Leipzig, East Germany, 1989–91. World Politics, 47, 42–101.
- Macy, M. W. (1991). Chains of cooperation: Threshold effects in collective action. American Sociological Review, 56, 730–747.
- Marwell, G., & Oliver, P. (1993). The critical mass in collective action. Cambridge, MA: Cambridge University Press.
- McNeill, W. H. (1995). Keeping together in time: Dance and drill in human history. Cambridge, MA: Harvard University Press.
- Nowak, M. A., & Sigmund, K. (2005). Evolution of indirect reciprocity. Nature, 437, 1291–1298.
- Olson, M. (1965). The logic of collective action: Public goods and the theory of groups. Harvard: Harvard University Press.
- Ostrom, E. (2009). A general framework for analyzing sustainability of social-ecological systems. Science, 325, 419–422.
- Panchanathan, K., & Boyd, R. (2004). Indirect reciprocity can stabilize cooperation without the second-order free rider problem. Nature, 432, 499–502.
- Perc, M., Jordan, J. J., Rand, D. G., Wang, Z., Boccaletti, S., & Szolnoki, A. (2017). Statistical physics of human cooperation. Physics Reports, 687, 1–51.
- Quax, R., Apolloni, A., & Sloot, P. M. (2013). The diminishing role of hubs in dynamical processes on complex networks. Journal of the Royal Society Interface, 10, 20130568.
- Rustagi, D., Engel, S., & Kosfeld, M. (2010). Conditional cooperation and costly monitoring explain success in forest commons management. Science, 330, 961–965.
- Sarkar, S., & Benjamin, C. (2019). Triggers for cooperative behavior in the thermodynamic limit: A case study in public goods game. Chaos, 29, 053131.
- Shultz, S., Opie, C., & Atkinson, Q. D. (2011). Stepwise evolution of stable sociality in primates. Nature, 479, 219–222.
- Skocpol, T. (1979). States and social revolutions: A comparative analysis of France, Russia and China. Cambridge, UK: Cambridge University Press.
- Stauff, D. (2008). Social applications of two-dimensional Ising models. American Journal of Physics, 76, 470–473.
- Tilly, C. (2002). Stories, identities, and political change. Lanham: Rowman and Littlefield.
- Tufekci, Z. (2017). Twitter and tear gas: The power and fragility of networked protest. New Haven: Yale University Press.
- Van den Berg, P., & Wenseleers, T. (2018). Uncertainty about social interactions leads to the evolution of social heuristics. Nature Communications, 9, 2151.
- Van Stekelenburg, J., & Klandermans, B. (2013). The social psychology of protest. Current Sociology, 61, 886–905.
- Weidlich, W. (1971). The statistical description of polarization phenomena in society. British Journal of Mathematical and Statistical Psychology, 24, 251–266.
- Wu, -J.-J., Li, C., Zhang, B.-Y., Cressman, R., & Tao, Y. (2014). The role of institutional incentives and the exemplar in promoting cooperation. Scientific Reports, 4, 6421.