Synchronization transitions in coupled q-deformed logistic maps

The concept of q-deformation has been expanded in a variety of situations including q-deformed nonlinear maps. Coupled q-deformed logistic maps with positive and negative q-diffusive coupling are investigated. The transition to state of synchronized fixed point in the thermodynamic limit for random...

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Veröffentlicht in:Chaos, solitons and fractals solitons and fractals, 2024-04, Vol.181, p.114703, Article 114703
Hauptverfasser: Sabe, Naval R., Pakhare, Sumit S., Gade, Prashant M.
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Sprache:eng
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Zusammenfassung:The concept of q-deformation has been expanded in a variety of situations including q-deformed nonlinear maps. Coupled q-deformed logistic maps with positive and negative q-diffusive coupling are investigated. The transition to state of synchronized fixed point in the thermodynamic limit for random initial conditions is studied as dynamic phase transitions. Though rare for one-dimensional maps, q-deformed maps show multistability. For weak coupling, the synchronized state may not be observed in the thermodynamic limit with random initial conditions even if it is linearly stable. Thus multistability persists. However, for large lattices with random initial conditions, five well-defined critical points are observed where the transition to a synchronized state occurs. Two of these show continuous phase transition. One of them is in the directed percolation universality class. In another case, the order parameter shows power-law decay superposed with oscillations on a logarithmic scale at the critical point and does not match with known universality classes. •We investigate q-diffusively coupled q-deformed logistic maps.•We study transitions to synchronized fixed points as dynamic phase transitions.•Transition to a nonzero fixed point is in the directed percolation universality class.•Order parameter decays as power-law with logarithmic oscillations for transition to fixed point coexisting with two bands.
ISSN:0960-0779
1873-2887
DOI:10.1016/j.chaos.2024.114703