Competing charge-density wave instabilities in the kagome metal ScV6Sn6

Song, Yu; Cao, Saizheng; Xu, Chenchao; Fukui, Hiroshi; Manjo, Taishun; Shi, M.; Liu, Yang; Cao, Chao

doi:10.21203/rs.3.rs-2843808/v1

Cited by 2 publications

(5 citation statements)

References 70 publications

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“…Curiously, above T CDW the slope of ρ zz (T ) changes from positive (metal-like) to negative (insulator-like) as the field is increased through 5 T. This temperature-dependent enhancement of ρ zz above T CDW may originate from strong CDW fluctuations that are recently reported in Ref. 27 . This dramatic magnetoresistance behavior is clearly absent in LuV 6 Sn 6 , revealing the anisotropic impact of CDW order and fluctuations on transport in ScV 6 Sn 6 .…”

Section: Magnetic Susceptibility and Electrical Resistivitysupporting

confidence: 51%

“…The CDW in ScV 6 Sn 6 has some unique characteristics. There are strong CDW fluctuations above the CDW transition with a different period than the low temperature ordered phase 27 demonstrating competing CDW modes 28 . The magnetic susceptibility 17 and optical conductivity 29 reveal a drop in the number of carriers on cooling through T CDW .…”

Section: Introductionmentioning

confidence: 97%

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Universal sublinear resistivity in vanadium kagome materials hosting charge density waves

Mozaffari

Mandrus

Meier

et al. 2023

Preprint

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The recent discovery of a charge density (CDW) state in ScV6Sn6 at TCDW = 91 K offers new opportunities to understand the origins of electronic instabilities in topological kagome systems. By comparing to the isostructural non-CDW compound LuV6Sn6, we unravel interesting electrical transport properties in ScV6Sn6, above and below the charge ordering temperature. We observed that by applying a magnetic field along the a axis, the temperature behavior of the longitudinal resistivity in ScV6Sn6 changes from metal-like to insulator-like above the CDW transition. We show that in the charge ordered state ScV6Sn6 follows the Fermi liquid behavior while above that, it transforms into a non-Fermi liquid phase in which the resistivity varies sublinearly over a broad temperature range. The sublinear resistivity, which scales by T3/5 is a common feature among other vanadium-containing kagome compounds exhibiting CDW states such as KV3Sb5, RbV3Sb5, and CsV3Sb5. By contrast, the non-Fermi liquid behavior does not occur in LuV6Sn6. We explain the T3/5 universal scaling behavior from the Coulomb scattering between Dirac electrons and Van Hove singularities; common features in the electronic structure of kagome materials. Finally, we show anomalous Hall-like behavior in ScV6Sn6 below TCDW, which is absent in the Lu compound. Comparing the transport properties of ScV6Sn6 and LuV6Sn6 is valuable to highlight the impacts of the unusual CDW in the Sc compound.

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Section: Magnetic Susceptibility and Electrical Resistivitysupporting

confidence: 51%

Section: Introductionmentioning

confidence: 97%

Universal sublinear resistivity in vanadium kagome materials hosting charge density waves

Mozaffari

Mandrus

Meier

et al. 2023

Preprint

View full text Add to dashboard Cite

show abstract

“…The Sc and Sn1 atoms in the first column show taller ellipsoids, representing larger position deviations in this direction. This reflects the strong CDW fluctuation observed in ScV 6 Sn 6 by inelastic and diffuse X-ray scattering. ,, …”

Section: Resultsmentioning

confidence: 71%

“…Rare earth atoms and Sn1 atoms form a chain that occupies channels in the hexagonal holes in the kagome and honeycomb layers, as illustrated in Figure b. These chains of atoms play a pivotal role in the CDW mode as they displace along the c -axis in the modulated structure. , Several CDW modes appear to compete in ScV 6 Sn 6 demonstrated by the strong CDW fluctuations observed above the transition temperature ,, with impacts on the electrical transport properties…”

Section: Introductionmentioning

confidence: 99%

“…It is important to note that the CDW in ScV 6 Sn 6 has a wave vector ,, in contrast to that observed in the AV 3 Sb 5 materials . ,,− ,, Another key difference is that the CDW in AV 3 Sb 5 compounds is dominated by vanadium displacements perpendicular to the hexagonal c -axis . Numerous investigations of the electronic structure of ScV 6 Sn 6 by photoemission measurements tie the CDW order to the Sn bands instead of the prominent vanadium bands. ,− There is evidence that the CDW phase has unusual characteristics including anomalous Hall-like responses , and claims of time reversal symmetry breaking …”

Section: Introductionmentioning

confidence: 99%

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Tiny Sc Allows the Chains to Rattle: Impact of Lu and Y Doping on the Charge-Density Wave in ScV₆Sn₆

Meier,

Madhogaria,

Mozaffari

et al. 2023

J. Am. Chem. Soc.

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The kagome metals display an intriguing variety of electronic and magnetic phases arising from the connectivity of atoms on a kagome lattice. A growing number of these materials with vanadium−kagome nets host charge− density waves (CDWs) at low temperatures, including ScV 6 Sn 6 , CsV 3 Sb 5 , and V 3 Sb 2 . Curiously, only the Sc version of the RV 6 Sn 6 materials with a HfFe 6 Ge 6type structure hosts a CDW (R = Gd−Lu, Y, Sc). In this study, we investigate the role of rare earth size in CDW formation in the RV 6 Sn 6 compounds. Magnetization measurements on our single crystals of (Sc,Lu)V 6 Sn 6 and (Sc,Y)V 6 Sn 6 establish that the CDW is suppressed by substituting Sc by larger Lu or Y. Single-crystal X-ray diffraction reveals that compressible Sn−Sn bonds accommodate the larger rare earth atoms within loosely packed R−Sn−Sn chains without significantly expanding the lattice. We propose that Sc provides extra room in these chains crucial to CDW formation in ScV 6 Sn 6 . Our rattling chain model explains why both physical pressure and substitution by larger rare earth atoms hinder CDW formation despite opposite impacts on lattice size. We emphasize the cooperative effect of pressure and rare earth size by demonstrating that pressure further suppresses the CDW in a Lu-doped ScV 6 Sn 6 crystal. Our model not only addresses why a CDW only forms in the RV 6 Sn 6 materials with tiny Sc but also advances our understanding of why unusual CDWs form in the kagome metals.

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Competing charge-density wave instabilities in the kagome metal ScV6Sn6

Cited by 2 publications

References 70 publications

Universal sublinear resistivity in vanadium kagome materials hosting charge density waves

Universal sublinear resistivity in vanadium kagome materials hosting charge density waves

Tiny Sc Allows the Chains to Rattle: Impact of Lu and Y Doping on the Charge-Density Wave in ScV₆Sn₆

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Competing charge-density wave instabilities in the kagome metal ScV6Sn6

Cited by 2 publications

References 70 publications

Universal sublinear resistivity in vanadium kagome materials hosting charge density waves

Universal sublinear resistivity in vanadium kagome materials hosting charge density waves

Tiny Sc Allows the Chains to Rattle: Impact of Lu and Y Doping on the Charge-Density Wave in ScV6Sn6

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Product

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Tiny Sc Allows the Chains to Rattle: Impact of Lu and Y Doping on the Charge-Density Wave in ScV₆Sn₆