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Topological Interface-State Lasing in a Polymer-Cholesteric Liquid Crystal Superlattice

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arxiv 2205.06536 v1 pith:4WVTUOKW submitted 2022-05-13 physics.optics cond-mat.mes-hall

Topological Interface-State Lasing in a Polymer-Cholesteric Liquid Crystal Superlattice

classification physics.optics cond-mat.mes-hall
keywords topologicallasingcrystalliquidsuperlatticedevicesp-clcphotonic
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The advance of topological photonics has heralded a revolution for manipulating light as well as for the development of novel photonic devices such as topological insulator lasers. Here, we demonstrate topological lasing of circular polarization in a polymer-cholesteric liquid crystal (P-CLC) superlattice, tunable in the visible wavelength regime. By use of the femtosecond-laser direct-writing and self-assembling techniques, we establish the P-CLC superlattice with a controlled mini-band structure and a topological interface defect, thereby achieving a low threshold for robust topological lasing at about 0.4 uJ. Thanks to the chiral liquid crystal, not only the emission wavelength is thermally tuned, but the circularly polarized lasing is readily achieved. Our results bring about the possibility to realize compact and integrated topological photonic devices at low cost, as well as to engineer an ideal platform for exploring topological physics that involves light-matter interaction in soft-matter environments.

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