Nilpotent Hopf bifurcations in coupled cell systems

T. Elmhirst and M. Golubitsky
Nilpotent Hopf bifurcations in coupled cell systems
SIAM J. Appl. Dynam. Sys. 5 (2006) 205-251.

Abstract

Network architecture can lead to robust synchrony in coupled systems and, surprisingly, to codimension one bifurcations from synchronous equilibria at which the associated Jacobian is nilpotent. We prove three theorems concerning nilpotent Hopf bifurcations from synchronous equilibria to periodic solutions, where the critical eigenvalues have algebraic multiplicity two and geometric multiplicity one, and discuss these results in the context of three different networks in which the bifurcations occur generically. Phenomena stemming from these bifurcations include multiple periodic solutions, solutions that grow at a rate faster than the standard lambda^(1/2) and solutions that grow slower than the standard lambda^(1/2). These different bifurcations depend on the network architecture, and in particular, on the flow-invariant subspaces that are forced to exist by the architecture.

T. Elmhirst and M. Golubitsky Nilpotent Hopf bifurcations in coupled cell systems SIAM J. Appl. Dynam. Sys. 5 (2006) 205-251.

Abstract

T. Elmhirst and M. Golubitsky
Nilpotent Hopf bifurcations in coupled cell systems
SIAM J. Appl. Dynam. Sys. 5 (2006) 205-251.