Melting the Superconducting State in the Electron Doped Cuprate Pr$_{1.85}% $Ce$_{0.15}$CuO$_{4-\delta}$ with Intense near-infrared and Terahertz Pulses

A. Rabinowicz; I. Diamant; I. Rousseau; J. Demsar; M. Beck; M. Helm; M. Klammer; M. Obergfell; P. Leiderer; V.V. Kabanov

arxiv: 1603.04155 · v1 · pith:O6ZO7E3Unew · submitted 2016-03-14 · ❄️ cond-mat.supr-con · cond-mat.str-el

Melting the Superconducting State in the Electron Doped Cuprate Pr_(1.85)% Ce_(0.15)CuO_(4-δ) with Intense near-infrared and Terahertz Pulses

M. Beck , M. Klammer , I. Rousseau , M. Obergfell , P. Leiderer , M. Helm , V.V. Kabanov , I. Diamant

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A. Rabinowicz Y. Dagan J. Demsar

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classification ❄️ cond-mat.supr-con cond-mat.str-el

keywords energypulsespumpingcupratedeltadopedelectronnear-infrared

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We studied the superconducting (SC) state depletion process in an electron doped cuprate Pr$_{1.85}$Ce$_{0.15}$CuO$_{4-\delta}$ 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, $A_{dep}$, matches the thermodynamic condensation energy. Contrary, by NIR pumping $A_{dep}$ 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.

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Melting the Superconducting State in the Electron Doped Cuprate Pr_(1.85)% Ce_(0.15)CuO_(4-δ) with Intense near-infrared and Terahertz Pulses

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