Bin Hu scite author profile

The recently discovered family of vanadium-based kagome metals with topological band structures offer new opportunities to study frustrated, correlated topological quantum states. These layered compounds are nonmagnetic and undergo charge density wave (CDW) transitions before developing superconductivity at low temperatures. Here we report the observation of unconventional superconductivity and pair density wave (PDW) in the vanadium-based kagome metal CsV3Sb5 using scanning tunneling microscope/spectroscopy (STM/STS) and Josephson STS. The differential conductance exhibits a V-shaped pairing gap Δ~0.5 meV below a transition temperature Tc~2.3 K. Superconducting phase coherence is observed by Josephson effect and Cooper-pair tunneling using a superconducting tip. We find that CsV3Sb5 is a strong-coupling superconductor (2∆/kBTc~5) and coexists with long-range 4a0 unidirectional and 2×2 charge order. Remarkably, we discover a bidirectional PDW accompanied by 4a0/3 spatial modulations of the coherence peak and gap-depth in the tunneling conductance. We term this novel quantum state a roton-PDW that can produce a commensurate vortex-antivortex lattice and account for the observed conductance modulations. Above Tc, we observe a large V-shaped pseudogap in the 4a0 unidirectional and 2a0 bidirectional CDW state. Electron-phonon calculations attribute the 2×2 CDW to phonon softening induced structural reconstruction, but the phonon mediated pairing cannot describe the observed strong-coupling superconductor. Our findings show that electron correlations drive the 4a0 unidirectional CDW, unconventional superconductivity, and roton-PDW with striking analogies and distinctions to the phenomenology of high-Tc cuprate superconductors, and provide groundwork for understanding their microscopic origins in vanadium-based kagome superconductors.

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Coexistence and competition of multiple charge-density-wave orders in rare-earth tritellurides

Cheng

Yuan

et al. 2014

Phys. Rev. B

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The occurrences of collective quantum states, such as superconductivity (SC) and charge-or spin-densitywaves (CDWs or SDWs), are among the most fascinating phenomena in solids. To date much effort has been made to explore the interplay between different orders, yet little is known about the relationship of multiple orders of the same type. Here we report optical spectroscopy study on CDWs in the rare-earth tri-telluride compounds RTe 3 (R = rare earth elements). Besides the prior reported two CDW orders, the study reveals unexpectedly the presence of a third CDW order in the series which evolves systematically with the size of R element. With increased chemical pressure, the first and third CDW orders are both substantially suppressed and compete with the second one by depleting the low energy spectral weight. A complete phase diagram for the multiple CDW orders in this series is established.

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Bin Hu

Roton pair density wave in a strong-coupling kagome superconductor

Coexistence and competition of multiple charge-density-wave orders in rare-earth tritellurides

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