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Levina, A., Herrmann, J.M. & Geisel, T. Dynamical synapses causing self-organized criticality in neural networks.
Ronning, F. et al. Electronic in-plane symmetry breaking at field-tuned quantum criticality in CeRhIn5.
Lecheminant, P., Gogolin, A. O. & Nersesyan, A. A. Criticality in self-dual sine-Gordon models.
Criticality in Neural Systems (eds. Plenz, D. & Niebur, E.) 191 226 (Wiley, 2014).
Park, T. et al. Hidden magnetism and quantum criticality in the heavy fermion superconductor CeRhIn5.
Rohlf, T. & Bornholdt, S. Criticality in random threshold networks: annealed approximation and beyond.
This chapter analyzes criticality in a neutron multiplying medium.
Insights from this model have informed studies of quantum criticality in numerous modern correlated-electron materials.
Rubinov, M., Sporns, O., Thivierge, J.P. & Breakspear, M. Neurobiologically realistic determinants of self-organized criticality in networks of spiking neurons.
Kagawa, F., Miyagawa, K. & Kanoda, K. Magnetic Mott criticality in a κ-type organic salt probed by NMR.
An exploration of such unconventional quantum criticality in other synthetic, non-conservative many-body systems presents an interesting challenge.
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