K. D. Park scite author profile

Systems that exhibit phase competition, order parameter coexistence, and emergent order parameter topologies constitute a major part of modern condensed-matter physics. Here, by applying a range of characterization techniques, and simulations, we observe that in PbTiO/SrTiO superlattices all of these effects can be found. By exploring superlattice period-, temperature- and field-dependent evolution of these structures, we observe several new features. First, it is possible to engineer phase coexistence mediated by a first-order phase transition between an emergent, low-temperature vortex phase with electric toroidal order and a high-temperature ferroelectric a/a phase. At room temperature, the coexisting vortex and ferroelectric phases form a mesoscale, fibre-textured hierarchical superstructure. The vortex phase possesses an axial polarization, set by the net polarization of the surrounding ferroelectric domains, such that it possesses a multi-order-parameter state and belongs to a class of gyrotropic electrotoroidal compounds. Finally, application of electric fields to this mixed-phase system permits interconversion between the vortex and the ferroelectric phases concomitant with order-of-magnitude changes in piezoelectric and nonlinear optical responses. Our findings suggest new cross-coupled functionalities.

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Nuclear magnetic resonance spectroscopic study of spin-lattice relaxation of quadrupolar nuclei in zeolites

Haase¹,

Park²,

Guo³

et al. 1991

J. Phys. Chem.

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K. D. Park

Phase coexistence and electric-field control of toroidal order in oxide superlattices

Nuclear magnetic resonance spectroscopic study of spin-lattice relaxation of quadrupolar nuclei in zeolites

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