Universal superconducting and magnetic properties of the (CaLa)(BaLa)CuO system: a MuSR investigation

Abstract

The (CaxLa(1-x))(Ba(1.75-x)La(0.25+x))Cu(3)O(y) system is ideal for testing theories of high temperature superconductivity, since nearly the full range of doping is controlled by y, and T(c)max is continuously controlled by x, with minimal structural changes. We investigate this system with both transverse and longitudinal field MuSR. This allows us to re-examine the Uemura relation, the nature of the spontaneous magnetic fields below T(c), and the relation between their appearance temperature T(g) and T(c)max . Our major findings are: (I) the Uemura relation is respected by CLBLCO more adequately than by other cuprates, (II) T(g) and T(c) are controlled by the same energy scale, (III) the phase separation between hole poor and hole rich regions is a microscopic one, and (IV) spontaneous magnetic fields appear gradually with no moment size evolution.

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