Dynamics of Non-superconducting Pairs in YBa2Cu3O7-δ Below Tc

Abstract: Pairing states are essential for understanding the underlying mechanisms of high-temperature superconductivity. Here the non-superconducting state in an optimally doped YBa2Cu3O7-{\delta} film was driven out of equilibrium by an optical pump with low fluence at a temperature well below the critical temperature (Tc), and its recovery dynamics were exclusively measured using transient terahertz spectroscopy. The pump-fluence dependent experiments unveiled evidence of local pairs without superconductivity coexisting with the superconducting Cooper pairs. An energy gap opening induced by the local pairing with short-range coherence was invoked to rationalize the temperature-dependent recovery time of local pairs with a characteristic divergence at a temperature substantially below Tc. These local pairs displayed remarkable likeness to the short-range pair-density-wave state. Our finding shed light on understanding the dynamic interplay between the coexisting superconducting and non-superconducting pairs in cuprate superconductors.