XAFS study of the low-temperature tetragonal phase of La2-xBaxCuO4: Disorder, stripes, and T-c suppression at x=0.125

Angular dependent x-ray absorption fine structure (XAFS);measurements of al l La, Ba, and Cu sites determined the origin and nature of the intrinsic di sorder present in the low temperature tetragonal (LTT) structural ground st ate of La2-xBaxCuO4 with x = 0.125,0.15 at T = 10 K. Ba doping induces majo r local distortions that extend as far as 5 Angstrom from its lattice site. Despite the low Ba content the large distortions significantly affect the XAFS of the majority La and Cu sites. The distribution of the local LTT til t angle of CuO6 octahedra was directly determined from single and multiple scattering contributions to the XAFS of La and Cu sites. This angle, which regulates the strength of electron-lattice and spin-spin coupling in this m aterial, was found to exhibit large, random fluctuations with rms [[(theta- [theta])(2)](1/2) approximate to 2 [theta], [theta] being the average tilt angle determined by diffraction techniques. These fluctuations originate in the large, random, static disorder introduced with Ba doping. Their presen ce has implications for the plausibility of a mobility gap causing T-c supp ression at x = 0.125 in only the LTT phase, and for the correlation length of the postulated charge and spin stripes.