Abstract
Recent acute manifestations of nonlinear spin behaviour in high field NMR spectroscopy of liquids have been observed. These were caused by collective effects, such as demagnetizing field effects or back action from the probe (radiation damping or radiation damping-based electronic feedback). These findings motivated the present study, in which the dynamics of a magnetization undergoing the effect of a radiation-damping based feedback field from the probe was numerically investigated. The existence of chaotic attractors is demonstrated and the type of transition to chaos investigated for various sets of parameters.
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