Evidence for strong lattice effects as revealed from huge unconventional oxygen isotope effects on the pseudogap temperature in La2-xSrxCuO4

Abstract

The oxygen isotope (16O/18O) effect (OIE) on the pseudogap (charge-stripe ordering) temperature T is investigated for the cuprate superconductor La2-xSrxCuO4 as a function of doping x by means of x-ray absorption near edge structure (XANES) studies. A strong x dependent and sign reversed OIE on T is observed. The OIE exponent αT systematically decreases from αT = - 0.6(1.3) for x = 0.15 to αT = - 4.4(1.1) for x = 0.06, corresponding to increasing T and decreasing superconducting transition temperature Tc. Both T(16 O) and T(18 O) exhibit a linear doping dependence with different slopes and critical end points (where T(16 O) and T(18 O) fall to zero) at xc(16 O) = 0.201(4) and xc(18 O) = 0.182(3), indicating a large positive OIE of xc with an exponent of αxc = 0.84(22). The remarkably large and strongly doping dependent OIE on T signals a substantial involvement of the lattice in the formation of the pseudogap, consistent with a polaronic approach to cuprate superconductivity and the vibronic character of its ground state.