Magnetoresistance of Sr1-xKxBiO3: a second-family of bismuth-oxide-based superconductorsстатья

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[1] Magnetoresistance of sr1-xkxbio3: a second-family of bismuth-oxide-based superconductors / D. C. Kim, J. S. Kim, S. J. Joo et al. // Journal of Low Temperature Physics. — 1999. — Vol. 117, no. 5-6. — P. 1205–1209. The superconducting Sr1-x KxBiO3 samples with x = 0.45 - 0.6 were synthesized by the high-pressure-high-temperature technique in a belt type apparatus (2 GPa, 700 degrees C, 1 h, Pt capsules) with stoichiometric mixtures of Sr2Bi2O5, Bi2O3 and KO2 as described earlier.(1) The X-ray diffraction results appear as a single perovskite-like phase. The superconductivity occurs at T-c similar to 12 K in the A. C. susceptibility measurement. The onset (zero resistivity) temperature of superconductivity in resistivity measurement of the investigated sample was T-conset = 12.5 K (T-Czero = 10.2 K). The transition temperature region was a little bit broad and a shoulder was present about 11.3 K indicating probably the existence of crystallites of different K content. The particularly interesting point is that the resistance begins to reappear at T < 6 K at zero magnetic field. As the external magnetic field is applied, the reentrant resistance disappears and superconductivity is recovered until the applied magnetic field becomes higher than 0. 65 Tesla. The superconductivity for T < 6 K is destroyed Sor the higher magnetic field. The T-conset decreases as the magnetic field increases like in the BCS type superconductors. The transition region becomes broader under the magnetic field, which indicate a kind of vortex transition as in the case of high T-c cuprates. [ DOI ]

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