论文信息 - Numerical resolution of charge transport in cross-linked polyethylene by means of a bipolar model with a distribution of traps

Numerical resolution of charge transport in cross-linked polyethylene by means of a bipolar model with a distribution of traps

We present a bipolar model of conduction providing time-dependent solutions for charge densities under uniform DC field. The model assumes the existence of an exponential distribution of trap depth for electrons and holes, with an upper limit in trap depth. Charges are supplied through Schottky injection at both electrodes. Charges move within the insulation through a hopping mechanism. Space charge profiles and external current are simulated in the transient regime following voltage application/grounding in DC stress. The objective is to describe the behaviour of cross-linked polyethylene.

[1] Gilbert Teyssedre,et al. Description of bipolar charge transport in polyethylene using a fluid model with a constant mobility: model prediction , 2004 .

[2] H. Eyring. The Activated Complex in Chemical Reactions , 1935 .

[3] Albert Rose,et al. Space-Charge-Limited Currents in Solids , 1955 .

[4] N. Mott,et al. Electronic Processes In Non-Crystalline Materials , 1940 .

[5] B. P. Leonard,et al. The ULTIMATE conservative difference scheme applied to unsteady one-dimensional advection , 1991 .

[6] Gian Carlo Montanari,et al. Charge distribution and electroluminescence in cross-linked polyethylene under dc field , 2001 .