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Since the discovery by Steglich et al. (1979) of superconductivity in the high-effective-mass (200m₄) electrons in CeCu₂Si₂, the search for and characterization of such "heavy-fermion" systems has been a rapidly growing field of study. The eight heavy-fermion systems known to date include superconductors (CeCu₂Si₂, UBe₁₃, UPt₃), magnets (NpBe₁₃, U₂Zn₁₇, UCd₁₁), and materials in which no ordering is observed (CeAl₃, CeCu₆). These f-electron materials have, in comparison to normal metals, enormous specific heat values (450-1600 mJ/mol K^2), large values of the low-temperature magnetic susceptibility (8-5010^-3 emu/mol G), maxima in the resistivity at low temperatures with large ₌₀ₗ values (100-200 cm), and unusual temperature dependences of their specific heats below 10 K. The three heavy-fermion superconductors show such unusual behavior that the possibility of p-wave pairing of the superconducting electrons, rather than the usual BCS s-wave pairing, cannot be ruled out. This paper reviews the experimental results to date, to serve both as a status report and as a starting point for future research. Several correlations between properties are pointed out, including the observation that a low value of the Wilson ratio () appears to correlate with the occurrence of superconductivity.
G. R. Stewart (Mon,) studied this question.
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