Abstract
The relaxation of polarization in time is studied for a two-dimensional dipolar lattice. Simulations are carried out integrating numerically the ordinary differential equations that result from considered dipole-dipole and dipole external field interaction for each dipole in a plane dipole arrangement. A potential law is found in the simulation of relaxation of polarization in time domain, in good agreement with experimental evidence. The influence of several parameters in system response is discussed. A hysteresis loop of polarization was obtained, showing ferroelectric behavior of the model.
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