Cooperative coupling of static magnetism and bulk superconductivity in the stripe phase of La 2 − x Ba x CuO 4 : Pressure- and doping-dependent studies

Understanding to which degree charge, spin, and superconducting orders compete or coexist is paramount to elucidate the microscopic pairing mechanism in the cuprate high-temperature superconductors (HTSs) and, more generally, to provide a deeper understanding of the phenomenon of high-temperature superconductivity. Here, we report high-pressure muon-spin rotation and magnetization experiments on the magnetic and the superconducting properties of the cuprate system La_{2-x}Ba_{x}CuO_{4} with x = 0.155 (LBCO-0.155). As a remarkable result, this bulk superconductor LBCO-0.155 exhibits static spin-stripe order. Moreover, the superconducting (SC) transition temperature T_c and the spin-stripe order temperature T_so nearly coincide (T_c(p) = T_so(p)) at all p investigated (from 0 to 2.3 GPa). We also observed a pressure induced transition from long-range spin stripe order to a disordered magnetic state at p = 1.6 GPa, coexisting with a SC state with substantial superfluid density. These results together with the observed phase seperation between the SC and the long-range magnetic state indicate that static magnetic order and SC pairing correlations develop in a cooperative fashion in LBCO-0.155, and provide a new route of understanding the complex interplay between static magnetism and superconductivity in the stripe phase of cuprates.