Enhancing the Hyperpolarizability of Crystals with Quantum Geometry.

Authors

Wojciech J Jankowski, Robert-Jan Slager, Michele Pizzochero

Published in

Physical review letters. Volume 135. Issue 12. Pages 126606. Sep 19, 2025.

Abstract

We demonstrate that higher-order electric susceptibilities in crystals can be enhanced and understood through nontrivial topological invariants and quantum geometry, using one-dimensional π-conjugated chains as representative model systems. First, we show that the crystalline-symmetry-protected topology of these chains imposes a lower bound on their quantum metric and hyperpolarizabilities. Second, we employ numerical simulations to reveal the tunability of nonlinear, quantum geometry-driven optical responses in various one-dimensional crystals in which band topology can be externally controlled. Third, we develop a semiclassical picture to deliver an intuitive understanding of these effects. Our findings offer a firm interpretation of otherwise elusive experimental observations of colossal hyperpolarizabilities and establish guidelines for designing topological materials of any dimensionality with enhanced nonlinear optical properties.

PMID:
41046418
Bibliographic data and abstract were imported from PubMed on 06 Oct 2025.

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