7Li nuclear magnetic resonance spectra and relaxation in Ni1−xLixO

15 April 1996

journal article
conference paper
Published by AIP Publishing in Journal of Applied Physics

Vol. 79 (8) , 6621-6623
https://doi.org/10.1063/1.361903

Abstract

⁷Li nuclear magnetic resonance (NMR) spectra and relaxation rates in Ni_1−xLi_xO, for 0.01≤x≤0.46 and for 20≤T≤550 K are presented. For x≤0.2 the antiferromagnetic (AF) phase typical of NiO is still observed. The Neel temperatures T_N(x), the temperature dependence of the field at the Li site, and the role of the extra holes in driving the correlated spin dynamics of Ni²⁺ are derived. In particular, from ⁷Li relaxation rates W the hopping frequencies of the holes on the AF background and the energy gaps between itinerant and localized states are extracted. In the mixed regime (x≥0.3, LiNiO₂ structure‐type) in which partial ordering on alternate Li⁺ and Ni³⁺ layers occurs, ⁷Li NMR data display the features typical of disordered paramagnets, consistent with a picture of random distribution of Ni³⁺ (S=1/2), Ni²⁺ (S=1) and of spin vacancies Li⁺ (S=0). In particular, for x=0.46, on cooling, a paramagnetic‐like divergence of the width and of the shift of the NMR line is observed while ⁷Li W’s indicate slowing down of the spin fluctuations. The fluctuation frequency decreases in the MHz range below a freezing temperature T_f≂40 K.

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