Tuesday, August 14, 2012

1208.2605 (S. Salem-Sugui Jr et al.)

Magnetic phase diagram of the layered superconductor
Bi{2+x}Sr{2-x}CuO{6+δ} (Bi2201) with Tc~7 K
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S. Salem-Sugui Jr, A. D. Alvarenga, J. Mosqueira, J. D. Dancausa, C. Salazar Mejia, E. Sinnecker, Huiqian Luo, Hai-Hu Wen
We report on magnetization measurements performed on a single crystal of Bi{2+x}Sr{2-x}CuO{6+\delta} with Tc\sim7 K for H||c-axis. The isofield M(T) curves show a large reversible region, with a pronounced rounding effect as M approaches zero which prevents the determination of Tc(H). Deviations from the linear behavior of magnetisation near Tc(H) are studied through the asymptotic behavior of $\sqrt{-M(T)}\sim(T-Ta)^m$, where m is an exponent and Ta an apparent temperature transition. Values of m deviates from the expected mean field value, 1/2, suggesting the importance of phase fluctuations. Resulting values of Ta, interpreted as the onset of phase correlations, decrease as field increases showing an upward curvature. Values of Tc(H) are obtained through a two-dimensional critical scaling analysis obeyed by many M(T) curves. The resulting phase diagram do not show upward curvature and lies below the Ta(H) line. The value of H{c2}(0) estimated from the initial slope $H_{c2}/dT is twice the value suggested by the phase diagram. Amplitude fluctuations above Ta(H) are explained in terms of a Ginzburg-Landau approach extended to high reduced temperatures and magnetic fields by the introduction of a total-energy cutoff in the fluctuation spectrum.
View original: http://arxiv.org/abs/1208.2605

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