139La NMR investigation in underdoped La1.93Sr0.07CuO4

Abstract

We report 139La and 63Cu nuclear magnetic and quadrupole resonance (NMR/NQR) studies in an underdoped La1.93Sr0.07CuO4 single crystal, focusing on the 139La NMR in the normal state. We demonstrate that the local structural distortions in the low-temperature orthorhombic structure cause the tilting of the direction of the electric field gradient (EFG) at the nuclei from the c axis, resulting in two NMR central transition spectra at both the 139La and 63Cu nuclei in an external field. Taking into account the tilt angle of the EFG, the temperature dependence of the 139La spectra allowed us to determine the 139La Knight shift and the structural order parameter. The angle and temperature dependence of the 139La spectrum is in perfect agreement with the macroscopic average structure and proves a displacive transition. The 139La nuclear spin-lattice relaxation rates, T1-1, suggest that La1.93Sr0.07CuO4 undergoes a gradual change to a temperature-independent paramagnetic regime in the high temperature region. Both the spectra and T1-1 of the 139La as a function of temperature reveal a sharp anomaly around TS=387(1) K, implying a first-order-like structural transition, and a dramatic change below ~70 K arising from collective glassy spin freezing.