TY - JOUR
T1 - Effect of pressure on the reentrant superconductor-normal-metal phase boundaries of the (La1-nCen)Al2 and (La1-xThx)1-nCen Kondo systems
AU - Ansari, P. H.
AU - Bulman, J. B.
AU - Huber, J. G.
AU - DeLong, L. E.
AU - Maple, M. B.
PY - 1994
Y1 - 1994
N2 - Measurements of the superconducting critical temperature Tc(n,P) as a function of Ce concentration n and pressure P≤20 kbar are reported for the superconducting Kondo systems (La1-nCen)Al2 and (La1-xThx)1-nCen (0≤x≤0.25). Data for the (La1-nCen)Al2 system are partially consistent with the theory of Müller-Hartmann and Zittartz (MHZ), assuming an increase of TK/Tc0 with P, where TK is the Kondo temperature and Tc0 is the critical temperature of the pure host superconductor. However, the pressure evolution of the reentrant superconducting-normal phase boundaries for the (La0.8Th0.2)1-nCen system is unexpected, and inconsistent with the MHZ theory. We find no evidence for the existence of a third transition (predicted by MHZ) back to the superconducting state for either the (La0.8Th0.2)1-nCen or (La1-nCen)Al2 systems. Recent Monte Carlo calculations by Jarrell may explain our data for both alloy systems, provided strong electron-phonon coupling effects are taken into account, although the effects of interimpurity interactions on the data remain uncertain.
AB - Measurements of the superconducting critical temperature Tc(n,P) as a function of Ce concentration n and pressure P≤20 kbar are reported for the superconducting Kondo systems (La1-nCen)Al2 and (La1-xThx)1-nCen (0≤x≤0.25). Data for the (La1-nCen)Al2 system are partially consistent with the theory of Müller-Hartmann and Zittartz (MHZ), assuming an increase of TK/Tc0 with P, where TK is the Kondo temperature and Tc0 is the critical temperature of the pure host superconductor. However, the pressure evolution of the reentrant superconducting-normal phase boundaries for the (La0.8Th0.2)1-nCen system is unexpected, and inconsistent with the MHZ theory. We find no evidence for the existence of a third transition (predicted by MHZ) back to the superconducting state for either the (La0.8Th0.2)1-nCen or (La1-nCen)Al2 systems. Recent Monte Carlo calculations by Jarrell may explain our data for both alloy systems, provided strong electron-phonon coupling effects are taken into account, although the effects of interimpurity interactions on the data remain uncertain.
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U2 - 10.1103/PhysRevB.49.3894
DO - 10.1103/PhysRevB.49.3894
M3 - Article
AN - SCOPUS:26144457052
SN - 0163-1829
VL - 49
SP - 3894
EP - 3906
JO - Physical Review B
JF - Physical Review B
IS - 6
ER -