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arxiv: 2312.15862 · v2 · pith:2MPC3Y7Inew · submitted 2023-12-26 · ❄️ cond-mat.str-el · cond-mat.mes-hall· cond-mat.mtrl-sci· quant-ph

Discovery of a topological exciton insulator with tunable momentum order

classification ❄️ cond-mat.str-el cond-mat.mes-hallcond-mat.mtrl-sciquant-ph
keywords topologicalexcitonicinsulatorsymmetrybulkexcitonphasebreaking
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Correlated topological materials often maintain a delicate balance among physical symmetries: many topological orders are symmetry protected, while most correlated phenomena arise from spontaneous symmetry breaking. It is rare to find cases where symmetry breaking induces a non-trivial topological phase. Here, we present the discovery of such a phase in Ta2Pd3Te5, where Coulomb interactions form excitons, which condense below 100 K, opening a topological gap and creating a topological excitonic insulator. Our spectroscopy reveals the full spectral bulk gap stemming from exciton condensation. This excitonic insulator state spontaneously breaks mirror symmetries but involves a very weak structural coupling, as indicated by photoemission spectroscopy, thermodynamic measurements, and a detailed structural analysis. Notably, scanning tunneling microscopy uncovers gapless boundary modes in the bulk insulating phase. Their magnetic field response, together with theoretical modeling, suggests a topological origin. These observations establish Ta2Pd3Te5 as the first confirmed topological excitonic insulator in a three-dimensional crystal. This allows to access the associated physics through bulk-sensitive techniques. Furthermore, we uncover another surprising aspect of the topological excitonic insulator, a secondary excitonic instability near 5 K that breaks the translational symmetry. The wavevector of this state shows an unprecedented magnetic field tunability. Thus, we unveil a unique sequence of topological exciton condensations in a bulk crystal, offering new opportunities to study critical behavior and excitations.

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  1. Ta2Pd3Te5 topological thermometer

    cond-mat.mtrl-sci 2024-06 unverdicted novelty 4.0

    Ta2Pd3Te5 exhibits power-law resistance from Luttinger liquid edge states at low T and semiconducting behavior at high T, enabling a tunable thermometer from millikelvin to room temperature.