Interplay between atomic fluctuations and charge density waves in La2-xSrxCuO4

Abstract

In the cuprate superconductors, the spatial coherence of the charge density wave (CDW) state grows rapidly below a characteristic temperature TCDW, the nature of which is debated. We have combined a set of x-ray scattering techniques to study La1.88Sr0.12CuO4 (TCDW~≈~80\,K) to shed light on this discussion. We observe the emergence of a crystal structure, which is consistent with the CDW modulation in symmetry, well above TCDW. This global structural change also induces strong fluctuations of local atomic disorder in the intermediate temperature region. At TCDW, the temperature dependence of this structure develops a kink, while the atomic disorder is minimized. We find that the atomic relaxation dynamics cross over from a cooperative to an incoherent response at TCDW. These results reveal a rich interplay between the CDWs and atomic fluctuations of distinct spatio-temporal scales. For example, the CDW coherence is enhanced on quasi-elastic timescales by incoherent atomic relaxation.