Multiple Broken Symmetries in Striped La2-xBaxCuO4 detected by the Field Symmetric Nernst Effect

Abstract

We report on a thermoelectric investigation of the stripe and superconducting phases of the cuprate La2-xBaxCuO4 near the x=1/8 doping known to host stable stripes. We use the doping and magnetic field dependence of field-symmetric Nernst effect features to delineate the phenomenology of these phases. Our measurements are consistent with prior reports of time-reversal symmetry breaking signatures above the superconducting T c, and crucially detect a sharp, robust, field-invariant peak at the stripe charge order temperature, T CO. Our observations suggest the onset of a nontrivial charge ordered phase at T CO, and the subsequent presence of spontaneously generated vortices over a broad temperature range before the emergence of bulk superconductivity in LBCO.