Abstract
In recent years polarization fatigue in ferroelectric polymers has attracted much attention due to their potential use in nonvolatile memories, though the mechanism is still an open question. Here we mainly focus on the experimental observations on two physical phenomena occurring during fatigue process: The frequency dependence of the fatigue rate and the change in the coercive field with increased fatigue cycles. The frequency dependence of fatigue rate shows that at lower fatigue frequencies the rate obeys a universal scaling behavior with respect to N/f, where N is the fatigue cycles and f is the fatigue frequency, while at much higher frequencies this scaling behavior is broken and the fatigue rate is N/f dependent. In addition, both the increase and the decrease of the coercive field are observed, which indicates that the change in the coercive field should be dominated by different mechanisms. Based on the understanding of the crucial influence of space charges on electrical fatigue, we give a detailed discussion on both phenomena.
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