Item

Abstract

The possible existence of phase-incoherent superconductivity in the normal state of cuprates is one of the grand unsolved problems of modern condensed matter physics. Optical spectroscopy shows that long-range superconducting correlations disappear at T_c, although other momentum-integrated probes provide evidence for residual coherence in the normal state. Here, we use nonlinear TeraHertz spectroscopy to excite and probe coherent charge fluctuations in YBa₂Cu₃O_6+x at frequencies and wavevectors that lie outside the light cone accessed by linear optics. In the superconducting state, we show that three-wave mixing between one optically driven phonon and two Josephson Plasma Polaritons excites coherent c-axis supercurrents at 2.4 THz and at in-plane wavevectors q_y > 1000 cm⁻¹. As T_c is crossed, these finite momentum supercurrent oscillations evolve continuously into a seemingly identical charge fluctuation mode, which survives up to the pseudogap temperature T*. We argue that these results are best explained by the existence of short-range superconducting fluctuations throughout the pseudogap phase of YBa₂Cu₃O_6+x.