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A self-consistent stochastic model of domain structure formation in a uniaxial ferroelectric, quenched from a high-temperature paraelectric phase to a low-temperature ferroelectric phase, is developed with an account of the applied electric field and the feedback effect via local depolarization fields.
Apr 21, 2023
Apr 21, 2023 · A self-consistent stochastic model of domain structure formation in a uniaxial ferroelectric, quenched from a high-temperature paraelectric phase to a low- ...
Apr 19, 2023 · A self-consistent stochastic model of domain structure formation in a uniaxial ferroelectric, quenched from a high-temperature paraelectric phase to a low- ...
PDF | A self-consistent stochastic model of domain structure formation in a uniaxial ferroelectric, quenched from a high-temperature paraelectric phase.
A self-consistent stochastic model of domain structure formation in a uniaxial ferroelectric, quenched from a high-temperature paraelectric phase to a ...
A possible way of the formation of domain configurations with desired characteristics is the controlled quenching from a high-temperature paraelectric phase to ...
A self-consistent stochastic model of domain structure formation in a uniaxial ferroelectric, quenched from a high-temperature paraelectric phase to a ...
Abstract: A self-consistent stochastic model of domain structure formation in a uniaxial ferroelectric, quenched from a high-temperature paraelectric phase to a ...
Stochastic theory of ferroelectric domain structure formation dominated by quenched disorder. Overview of attention for article published in Physical Review ...
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Erratum: Stochastic theory of ferroelectric domain structure formation dominated by quenched disorder [Phys. Rev. B 107, 144109 (2023)]