Striped electronic phases in an incommensurately modulated van der Waals superlattice

Electronic properties of crystals can be manipulated using spatially periodic modulations. Long-wavelength, incommensurate modulations are of particular interest, exemplified recently by moiré patterned van der Waals (vdW) heterostructures. Bulk vdW superlattices hosting interfaces between clean 2D...

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Bibliographic Details
Published in:arXiv.org 2024-02
Main Authors: Devarakonda, Aravind, Chen, Alan, Shiang Fang, Graf, David, Kriener, Markus, Akey, Austin J, Bell, David C, Suzuki, Takehito, Checkelsky, Joseph G
Format: Article
Language:English
Subjects:
Anisotropy
Coherence
Critical current density
Electron transport
Fermi liquids
Heterostructures
Interlayers
Modulation
Oscillations
Superconductivity
Superconductors
Superlattices
Transition metal compounds
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Summary:Electronic properties of crystals can be manipulated using spatially periodic modulations. Long-wavelength, incommensurate modulations are of particular interest, exemplified recently by moiré patterned van der Waals (vdW) heterostructures. Bulk vdW superlattices hosting interfaces between clean 2D layers represent scalable bulk analogs of vdW heterostructures and present a complementary venue to explore incommensurately modulated 2D states. Here we report the bulk vdW superlattice SrTa\(_2\)S\(_5\) realizing an incommensurate 1D modulation of 2D transition metal dichalcogenide (TMD) \(H\)-TaS\(_2\) layers. High-quality electronic transport in the \(H\)-TaS\(_2\) layers, evidenced by quantum oscillations, is made anisotropic by the modulation and shows commensurability oscillations akin to lithographically modulated 2D systems. We also find unconventional, clean-limit superconductivity (SC) in SrTa\(_2\)S\(_5\) with a pronounced suppression of interlayer coherence relative to intralayer coherence. Such a hierarchy can arise from pair-density wave (PDW) SC with mismatched spatial arrangement in adjacent superconducting layers. Examining the in-plane magnetic field \(H_{ab}\) dependence of interlayer critical current density \(J_c\), we find anisotropy with respect to \(H_{ab}\) orientation: \(J_c\) is maximized (minimized) when \(H_{ab}\) is perpendicular (parallel) to the stripes, consistent with 1D PDW SC. From diffraction we find the structural modulation is shifted between adjacent \(H\)-TaS\(_2\) layers, suggesting mismatched 1D PDW is seeded by the striped structure. With a high-mobility Fermi liquid in a coherently modulated structure, SrTa\(_2\)S\(_5\) is a promising host for novel phenomena anticipated in clean, striped metals and superconductors. More broadly, SrTa\(_2\)S\(_5\) establishes bulk vdW superlattices as macroscopic platforms to address long-standing predictions for modulated electronic phases.
ISSN:2331-8422
DOI:10.48550/arxiv.2402.08677