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Origin of the 110-K superconducting transition in the Bi-Sr-Ca-Cu-O system

Jean‐Marie TarasconBell Communications Research, Inc., 331 Newman Springs Road, Red Bank, New Jersey 07701Y. LePageBell Communications Research, Inc., 331 Newman Springs Road, Red Bank, New Jersey 07701L. H. GreeneBell Communications Research, Inc., 331 Newman Springs Road, Red Bank, New Jersey 07701B. G. BagleyBell Communications Research, Inc., 331 Newman Springs Road, Red Bank, New Jersey 07701P. BarbouxBell Communications Research, Inc., 331 Newman Springs Road, Red Bank, New Jersey 07701D. M. HwangBell Communications Research, Inc., 331 Newman Springs Road, Red Bank, New Jersey 07701G. W. HullBell Communications Research, Inc., 331 Newman Springs Road, Red Bank, New Jersey 07701W. R. McKinnonBell Communications Research, Inc., 331 Newman Springs Road, Red Bank, New Jersey 07701M. GiroudBell Communications Research, Inc., 331 Newman Springs Road, Red Bank, New Jersey 07701

1988en

ABI

Annotatsiya

Superconducting critical transitions with an onset at 112 K and zero resistance at 107 K are obtained within the Bi-Sr-Ca-Cu-O system. The synthesis and formation of the 110-K superconducting phase using the 85-K material as a precursor is explained. The 110-K phase grows from the 85-K phase such that the resulting faceted crystal (a pseudomorph) can contain some of the 85-K phase in the core. With such a microstructure our magnetic data can be simply explained. A major structural difference between the 85- and 110-K materials is that the 85-K material can grow (relatively) large single crystals having long-range order whereas the 110-K material has only intermediate-range order (cryptocrystalline) of about 100-200 \AA{}.

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Identifikatorlar

DOI: 10.1103/physrevb.38.2504

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