28 August 2022 to 2 September 2022
Science and Technology Campus, University of Parma
Europe/Rome timezone
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Beta detected NMR of $^8$Li in 2H molybdenum ditelluride

2 Sep 2022, 11:20
20m
Science and Technology Campus, University of Parma

Science and Technology Campus, University of Parma

University of Parma, Italy
Oral Strongly correlated electron systems Oral contributions

Speaker

Zaher Salman (Paul Scherrer Institute)

Description

Layered transition-metal dichalcogenides (TMDs) are proposed as building blocks for van der Waals (vdW) heterostructures. Semiconducting TMDs are further prone to host magnetic impurities, e.g. at defects or interstitials. Here we investigate the behavior of interstitial $^8$Li$^+$ implanted into 2H-MoTe$_2$ at depths of $\sim$110 nm with $\beta$-detected NMR. We find that unlike muons $[1]$, the $^8$Li$^+$ does not show any signature of induced magnetism. We confirm this result by density functional theory, which identifies the Li stopping site at the 2a Wyckoff position in the vdW gap and shows the absence of Li-induced electronic spin polarization. Both, the spin lattice relaxation (Fig. 1c) and the resonance lines (Fig. 1a) show evidence for Li diffusion or a site change above 200K. The line shape of $^8$Li$^+$ is found to consist of quadrupolar satellites on top of a broad central peak (Fig. 1a). Therefore, we employ a frequency comb measurement, where four frequencies, $\omega_0-3\omega_{\mathrm{comb}}$, $\omega_0-\omega_{\mathrm{comb}}$, $\omega_0+\omega_{\mathrm{comb}}$, and $\omega_0+3\omega_{\mathrm{comb}}$ corresponding to the first-order quadrupolar satellite transitions are excited simultaneously as a function of $\omega_{\mathrm{comb}}$. This offers an enhanced sensitivity to the quadrupolarly split portion of the line. Using this method, we find a small decrease of the quadrupolar frequency with increasing temperature (Fig. 1b), showing the typical behavior associated with thermally excited phonons.

$[1]$ J. A. Krieger, et al., arXiv:2206.03051 (2022)

(a) $^8$Li$^+$ line shape and (b) frequency comb in 2H-MoTe$_2$ at different temperatures, which are offset for clarity. (c) Temperature dependence of the spin lattice relaxation rate at different applied fields.

Primary author

Jonas A. Krieger (Max Planck Institute of Microstructure Physics)

Co-authors

Igor P. Rusinov (Tomsk State University, pr. Lenina 36, 634050 Tomsk, Russia) Sourabh Barua (Department of Physics, University of Warwick, Coventry CV4 7AL, UK) Dr Aris C. Chatzichristos (UBC) Jared Croese (Experimental Physics Department, CERN, 1211 Geneva, Switzerland) Derek Fujimoto (University of British Columbia) Stefan Holenstein (Laboratory for Muon Spin Spectroscopy, Paul Scherrer Institute, CH-5232 Villigen PSI, Switzerland) Victoria Karner (TRIUMF) Mr Ryan M. L. McFadden (UBC) John Ticknor (University of British Columbia) Prof. W. Andrew MacFarlane (UBC) Rob Kiefl (University of British Columbia) Prof. Geetha Balakrishnan (Warwick University) Dr Evgueni V. Chulkov (DIPC, Donostia, Spain) Stuart S. P. Parkin (Max Planck Institut für Mikrostrukturphysik, Weinberg 2, 06120 Halle, Germany) Zaher Salman (Paul Scherrer Institute)

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