Melting the Superconducting State in the Electron Doped Cuprate Pr1.85% Ce0.15CuO4-δ with Intense near-infrared and Terahertz Pulses

Abstract

We studied the superconducting (SC) state depletion process in an electron doped cuprate Pr1.85Ce0.15CuO4-δ by pumping with near-infrared (NIR) and narrow-band THz pulses. When pumping with THz pulses tuned just above the SC gap, we find the absorbed energy density required to deplete superconductivity, Adep, matches the thermodynamic condensation energy. Contrary, by NIR pumping Adep is an order of magnitude higher, despite the fact that the SC gap is much smaller than the energy of relevant bosonic excitations. The result implies that only a small subset of bosons contribute to pairing.