Info

Kinetics of nanosize ferroelectrics

Etesami S.R., Sukhov A., and Berakdar J.

Phys. Rev. B 94, pp 174105 (2016)

We analyze theoretically the finite-temperature polarization dynamic in displacive-type ferroelectrics. In particular we consider the thermally activated switching time of a single-domain ferroelectric polarization studied by means of the Landau-Khalatnikov equation, extended to capture thermal fluctuations. The results are compared with the switching time formula that follows from the analytical solution of Pauli master equations. In a second step we focus on the phase diagram of a prototypical ferroelectric as described by the temperature-dependent Landau-Devonshire model including thermal fluctuations. Our simulations show the emergence of phase instability at reduced sizes which we attribute to thermal fluctuations in the order parameter in the respective phase. We conclude that, along with the temperature-dependent potential coefficients, thermal fluctuations should be taken into account to achieve a comprehensive description of the thermal behavior of reduced-size ferroelectrics. To support our conclusions, we simulated the electric-field activated switching time for a multidomain system and compared the results to the predictions of well-established models such as Kolmogorov-Avrami-Ishibashi.

Full text:

PDF (1898kB)


(For personal use only. Please send an email to our secretary if you need the paper.)