Related papers: Evidence for reentrant quantum paraelectric state preceded by a multiglass phase with non-classical exponent and magnetodielectric coupling in SrFe12O19

Evidence for reentrant quantum paraelectric state preceded by a multiglass phase with non-classical exponent and magnetodielectric coupling in SrFe12O19

URL: http://arxiv.org/abs/2312.10619v1
Date: Sun, 17 Dec 2023 06:14:46 GMT
Title: Evidence for reentrant quantum paraelectric state preceded by a multiglass phase with non-classical exponent and magnetodielectric coupling in SrFe12O19
Authors: Keshav Kumar and Dhananjai Pandey
Abstract summary: Evidence for a re-entrant quantum paraelectric (QPE) state preceded by a dipole glass (DG) phase with a non-classical exponent in the quantum critical regime of SrFe12O19 is presented.
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License: http://creativecommons.org/licenses/by-nc-nd/4.0/
Abstract: Evidence for a re-entrant quantum paraelectric (QPE) state preceded by a dipole glass (DG) phase with a non-classical exponent in the quantum critical regime of SrFe12O19 is presented. It is shown that the DG transition is accompanied with a spin glass (SG) transition and presence of a biquadratic coupling of two diverse order parameter fields. Further, the ergodic symmetry breaking temperatures for the DG and SG transitions coincide (TDG ~ TSG) within +/- 1K suggesting that SrFe12O19 exhibits a canonical multiglass state. The stability of the dipole glass state is enhanced magnetically as evidenced by the increase in the freezing temperature with magnetic field (H). The re-entrant QPE state, on the other hand, is found to give way to another frequency dependent peak in the temperature dependence of dielectric constant, most likely a DG phase, at a constant H. Further, this transition is not linked to any magnetic transition in sharp contrast to the higher temperature multiglass transition. The transition temperature of this phase decreases with increasing magnetic field for a fixed frequency unlike the higher temperature DG transition. This raises the possibility of locating a quantum critical point (QCP) in this system at higher magnetic fields than that used in the present work. These results are discussed in the light of quantum critical models of multiferroic transitions. Our results highlight the need for more theoretical studies specific to multiferroic quantum criticality in a multiglass system.

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