$\beta$-NMR of Isolated $^{8}$Li$^{+}$ Implanted into a Thin Copper Film

A. I. Mansour; C. D. P. Levy; D. Wang; G. D. Morris; I. Fan; J. Jung; K. H. Chow; M. Beaudoin; R. C. Ma; R. F. Kiefl

arxiv: cond-mat/0701002 · v1 · submitted 2006-12-29 · ❄️ cond-mat.str-el

β-NMR of Isolated ⁸Li⁺ Implanted into a Thin Copper Film

Z. Salman , A. I. Mansour , K. H. Chow , M. Beaudoin , I. Fan , J. Jung , T. A. Keeler , R. F. Kiefl

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C. D. P. Levy R. C. Ma G. D. Morris T. J. Parolin D. Wang W. A. MacFarlane

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keywords betafilmknightrelaxationshiftssitesitestemperatures

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Depth-controlled $\beta$-NMR was used to study highly spin-polarized $^8$Li in a Cu film of thickness 100 nm deposited onto a MgO substrate. The positive Knight Shifts and spin relaxation data show that $^8$Li occupies two sites at low temperatures, assigned to be the substitutional ($S$) and octahedral ($O$) interstitial sites. Between 50 to 100 K, there is a site change from $O$ to $S$. The temperature dependence of the Knight shifts and spin-lattice relaxation rates at high temperatures, i.e. when all the Li are in the $S$ site, is consistent with the Korringa Law for a simple metal.

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β-NMR of Isolated ⁸Li⁺ Implanted into a Thin Copper Film

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