Disorder effects in a model of competing superconducting and charge-density wave orders in YBa$_2$Cu$_3$O$_{6+x}$

Abstract: There is evidence for competition between superconductivity and short-range charge-density wave order in a number of cuprate compounds and especially in YBa$2$Cu$_3$O${6+x}$. Here, we use a non-linear sigma model of such competition to study the effects of spatially correlated disorder in the chain layers and delta-correlated disorder in the CuO$_2$ layers. The first is relevant to the oxygen ortho structure and the latter may be induced by electron irradiation. We find that reducing the correlation length of the potential on the chain layers decreases the size of the charge-density wave structure factor but has little effect on its temperature dependence, as observed experimentally. At the same time, the charge-density wave correlation length decreases more than is seen in the experiment. The temperature at which the structure factor peaks coincides with $T_c$ and both decrease when disorder is introduced into the CuO$_2$ planes. Strengthening this disorder reduces the magnitude of the structure factor and eventually turns it into a monotonic function of the temperature. This occurs despite an increase in the local magnitude of the charge-density wave order.