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Main Authors: Amisi, Safari, Gómez-Ortiz, Fernando, Bousquet, Eric, Ghosez, Philippe
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2604.09193
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author Amisi, Safari
Gómez-Ortiz, Fernando
Bousquet, Eric
Ghosez, Philippe
author_facet Amisi, Safari
Gómez-Ortiz, Fernando
Bousquet, Eric
Ghosez, Philippe
contents Silver niobate is a conventional perovskite oxide compound, known to exhibit a rich polymorphism. Although often classified as antiferroelectric, its low-temperature structure remains unclear. Here, first-principles calculations reveal a previously overlooked and unusual rhombohedral ferroelectric phase with $R3$ symmetry that emerges as the thermodynamic ground state despite its close energetic competition among previously proposed structures. Remarkably, this phase is structurally chiral, with chirality emerging improperly from the coupling between polarization and in-phase rotations of the oxygen octahedra along [111], producing a ferri-chiral state with incomplete cancellation of local chiral motifs. As a consequence, the phase exhibits significant natural optical activity comparable to that of quartz. Although energetically favored, its experimental observation may be hindered by kinetic limitations, potentially contributing to the ongoing controversy surrounding the low-temperature structure of silver niobate.
format Preprint
id arxiv_https___arxiv_org_abs_2604_09193
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle The hidden ferroelectric chiral ground state of silver niobate
Amisi, Safari
Gómez-Ortiz, Fernando
Bousquet, Eric
Ghosez, Philippe
Materials Science
Silver niobate is a conventional perovskite oxide compound, known to exhibit a rich polymorphism. Although often classified as antiferroelectric, its low-temperature structure remains unclear. Here, first-principles calculations reveal a previously overlooked and unusual rhombohedral ferroelectric phase with $R3$ symmetry that emerges as the thermodynamic ground state despite its close energetic competition among previously proposed structures. Remarkably, this phase is structurally chiral, with chirality emerging improperly from the coupling between polarization and in-phase rotations of the oxygen octahedra along [111], producing a ferri-chiral state with incomplete cancellation of local chiral motifs. As a consequence, the phase exhibits significant natural optical activity comparable to that of quartz. Although energetically favored, its experimental observation may be hindered by kinetic limitations, potentially contributing to the ongoing controversy surrounding the low-temperature structure of silver niobate.
title The hidden ferroelectric chiral ground state of silver niobate
topic Materials Science
url https://arxiv.org/abs/2604.09193