Probing topological phase transitions using high-harmonic generation

NATURE PHOTONICS(2022)

Cited 24|Views57
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Abstract
The prediction and realization of topological insulators have sparked great interest in experimental approaches to the classification of materials 1 – 3 . The phase transition between non-trivial and trivial topological states is important, not only for basic materials science but also for next-generation technology, such as dissipation-free electronics 4 . It is therefore crucial to develop advanced probes that are suitable for a wide range of samples and environments. Here we demonstrate that circularly polarized laser-field-driven high-harmonic generation is distinctly sensitive to the non-trivial and trivial topological phases in the prototypical three-dimensional topological insulator bismuth selenide 5 . The phase transition is chemically initiated by reducing the spin–orbit interaction strength through the substitution of bismuth with indium atoms 6 , 7 . We find strikingly different high-harmonic responses of trivial and non-trivial topological surface states that manifest themselves as a conversion efficiency and elliptical dichroism that depend both on the driving laser ellipticity and the crystal orientation. The origins of the anomalous high-harmonic response are corroborated by calculations using the semiconductor optical Bloch equations with pairs of surface and bulk bands. As a purely optical approach, this method offers sensitivity to the electronic structure of the material, including its nonlinear response, and is compatible with a wide range of samples and sample environments.
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Key words
Condensed-matter physics,High-harmonic generation,Physics,general,Applied and Technical Physics,Quantum Physics
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