Large oxygen-isotope effect in Sr_{0.4}K_{0.6}BiO_{3}: Evidence for phonon-mediated superconductivity

(2) PSI; (3) Solid-state Physics at ETH Zurich; (4) Chemistry at ETH Zurich ETH; (5) Laboratoire de Cristallographie; (6) Moscow State University); C. Bougerol (5); E. V. Antipov (6) ((1) University of Zurich; France; Grenoble; Guo-meng Zhao (1)

arxiv: cond-mat/0007508 · v1 · submitted 2000-07-31 · ❄️ cond-mat.supr-con

Large oxygen-isotope effect in Sr_(0.4)K_(0.6)BiO₃: Evidence for phonon-mediated superconductivity

Guo-meng Zhao (1) , K.Conder (2) , M.Angst (3) , S. M. Kazakov (3) , J. Karpinski (3) , M. Maciejewski (4) , C. Bougerol (5) , J. S. Pshirkov (6)

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E. V. Antipov (6) ((1) University of Zurich (2) PSI (3) Solid-state Physics at ETH Zurich (4) Chemistry at ETH Zurich ETH (5) Laboratoire de Cristallographie Grenoble France (6) Moscow State University)

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classification ❄️ cond-mat.supr-con

keywords alphabismuthatescuprateseffectexponentisotopeoxygen-isotopephonon-mediated

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Oxygen-isotope effect has been investigated in a recently discovered superconductor Sr_{0.4}K_{0.6}BiO_{3}. This compound has a distorted perovskite structure and becomes superconducting at about 12 K. Upon replacing ^{16}O with ^{18}O by 60-80%, the T_c of the sample is shifted down by 0.32-0.50 K, corresponding to an isotope exponent of alpha_{O} = 0.40(5). This isotope exponent is very close to that for a similar bismuthate superconductor Ba_{1-x}K_{x}BiO_{3} with T_c = 30 K. The very distinctive doping and T_c dependencies of alpha_{O} observed in bismuthates and cuprates suggest that bismuthates should belong to conventional phonon-mediated superconductors while cuprates might be unconventional supercondutors.

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Large oxygen-isotope effect in Sr_(0.4)K_(0.6)BiO₃: Evidence for phonon-mediated superconductivity

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