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Unconventional Hysteretic Transition in a Charge Density Wave

Baiqing Lv, Alfred Zong, Dong Wu, A. V. Rozhkov, Boris V. Fine, Su-Di Chen, Makoto Hashimoto, Dong-Hui Lu, M. Li, Yaobo Huang, Jacob P. C. Ruff, Donald A. Walko, Z. H. Chen, Inhui Hwang, Yifan Su, Xiaozhe Shen, Xirui Wang, Fei Han, Hoi Chun Po, Yao Wang, Pablo Jarillo‐Herrero, Xijie Wang, Hua Zhou, Cheng‐Jun Sun, Haidan Wen, Zhi‐Xun Shen, Nanlin Wang, Nuh Gedik

2022Physical Review Letters36 citationsDOIOpen Access PDF

Abstract

Hysteresis underlies a large number of phase transitions in solids, giving rise to exotic metastable states that are otherwise inaccessible. Here, we report an unconventional hysteretic transition in a quasi-2D material, EuTe_{4}. By combining transport, photoemission, diffraction, and x-ray absorption measurements, we observe that the hysteresis loop has a temperature width of more than 400 K, setting a record among crystalline solids. The transition has an origin distinct from known mechanisms, lying entirely within the incommensurate charge density wave (CDW) phase of EuTe_{4} with no change in the CDW modulation periodicity. We interpret the hysteresis as an unusual switching of the relative CDW phases in different layers, a phenomenon unique to quasi-2D compounds that is not present in either purely 2D or strongly coupled 3D systems. Our findings challenge the established theories on metastable states in density wave systems, pushing the boundary of understanding hysteretic transitions in a broken-symmetry state.

Topics & Concepts

Charge density waveMetastabilityHysteresisCondensed matter physicsPhase transitionCharge orderingPhase (matter)Modulation (music)PhysicsDiffractionCharge (physics)Symmetry (geometry)Materials scienceQuantum mechanicsSuperconductivityGeometryAcousticsMathematicsOrganic and Molecular Conductors ResearchMolecular Junctions and NanostructuresQuantum and electron transport phenomena
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