Abstract
Recent research has led to the discovery of fundamental new phenomena in network synchronization, including chimera states, explosive synchronization, and asymmetry-induced synchronization. Each of these phenomena has thus far been observed only in systems designed to exhibit that one phenomenon, which raises the questions of whether they are mutually compatible and, if so, under what conditions they co-occur. Here, we introduce a class of remarkably simple oscillator networks that concurrently exhibit all of these phenomena. The dynamical units consist of pairs of nonidentical phase oscillators, which we refer to as Janus oscillators by analogy with Janus particles and the mythological figure from which their name is derived. In contrast to previous studies, these networks exhibit (i) explosive synchronization with identical oscillators; (ii) extreme multistability of chimera states, including traveling, intermittent, and bouncing chimeras; and (iii) asymmetry-induced synchronization in which synchronization is promoted by random oscillator heterogeneity. These networks also exhibit the previously unobserved possibility of inverted synchronization transitions, in which a transition to a more synchronous state is induced by a reduction rather than an increase in the coupling strength. These various phenomena are shown to emerge under rather parsimonious conditions, and even in locally connected ring topologies, which has the potential to facilitate their use to control and manipulate synchronization in experiments.
Highlights
It has been the tradition of physics to describe complex behavior using simple mathematical models
Becomes subcritical and hysteretic; and (3) asymmetry-induced synchronization (AIS) [5,6,7], a partial converse to the symmetry breaking exhibited by chimera states, in which either the oscillators or their couplings need to be nonidentical for synchronization to prevail
While previous work focused on explosive transitions from an asynchronous state to a single synchronous state, we explore an entire spectrum of transitions to a multitude of partially synchronous states
Summary
It has been the tradition of physics to describe complex behavior using simple mathematical models. Becomes subcritical ( abrupt) and hysteretic; and (3) asymmetry-induced synchronization (AIS) [5,6,7], a partial converse to the symmetry breaking exhibited by chimera states, in which either the oscillators or their couplings need to be nonidentical for synchronization to prevail. These behaviors are unequivocally emergent, since they are not manifestly forged into the model. We demonstrate the co-occurrence of chimera states, explosive synchronization, and a new form of AIS in a class of surprisingly simple oscillator networks. Our presentation is complemented by an animated visualization of the main findings, which is included as Supplemental Material [9] and can be consulted before or after the text
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