Interplay of charge density waves, disorder, and superconductivity in 2H-TaSe2 elucidated by NMR

Single crystals of pristine and 6% Pd-intercalated 2H‐TaSe _2 have been studied by means of ^77 Se nuclear magnetic resonance. The temperature dependence of the ^77 Se spectrum, with an unexpected line narrowing upon Pd intercalation, unravels the presence of correlated local lattice distortions far...

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Bibliographic Details
Main Authors: Seung-Ho Baek, Yeahan Sur, Kee Hoon Kim, Matthias Vojta, Bernd Büchner
Format: Article
Language:English
Published: IOP Publishing 2022-01-01
Series:New Journal of Physics
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Online Access:https://doi.org/10.1088/1367-2630/ac5eec
Description
Summary:Single crystals of pristine and 6% Pd-intercalated 2H‐TaSe _2 have been studied by means of ^77 Se nuclear magnetic resonance. The temperature dependence of the ^77 Se spectrum, with an unexpected line narrowing upon Pd intercalation, unravels the presence of correlated local lattice distortions far above the transition temperature of the charge density wave (CDW) order, thereby supporting a strong-coupling CDW mechanism in 2H‐TaSe _2 . While, the Knight shift data suggest that the incommensurate CDW transition involves a partial Fermi surface gap opening. As for spin dynamics, the ^77 Se spin-lattice relaxation rate ${T}_{1}^{-1}$ as a function of temperature shows that a pseudogap behavior dominates the low-energy spin excitations even within the CDW phase, and gets stronger along with superconductivity in the Pd-6% sample. We discuss that CDW fluctuations may be responsible for the pseudogap as well as superconductivity, although the two phenomena are unlikely to be directly linked each other.
ISSN:1367-2630