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Sereni, J. G. "Evaluation of the cerium metallic radius in its AB2 laves phases." In Proceedings International Conference on Valence Fluctuations in Solids, edited by L. M. Falicov, W. Hanke and M. B. Mapple, 409. North-Holland Publishing Company, 1981.
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Daudin, B. "Thermal conductivity of amorphous La70Cu30." Solid State Communications 37, no. 2 (1981): 149–152.
Abstract: We have measured in a temperature range of 0.6 to 6.5 K the thermal conductivity of various samples of amorphous La70Cu30 prepared by ultra rapid quenching. Below the superconducting critical temperature (Tc=3.85K) we found the classical amorphous behaviour and determined the coupling constant n0M2. Above Tc we found that the thermal conductivity was governed by the electron-phonon interaction and we discuss the results obtained.
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Arce, R., F. de la Cruz, and P. Esquinazi. "Superconducting penetration depth in amorphous metals." Solid State Communications 38, no. 12 (1981): 1253–1255.
Abstract: We show that temperature dependent penetration depth measurements can be used to characterize the superconductive behaviour of amorphous metals.
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Sereni, J. G., J. B. Bulman, and J. G. Huber. "Specific-heat measurements on superconducting ThCr alloys." Physica B & C 108, no. 1-3 (1981): 1277–1278.
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Esquinazi, P., M. E. de la Cruz, and F. de la Cruz. "Heat treatment effects in La70Cu30 amorphous system." Physica B+C 108B, no. 1-3 (1981): 1215–1216.
Abstract: It is shown that superconductivity is a useful tool to investigate the evolution of the amorphous state, when heat treatment below the crystallization temperature.
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Arce, R., F. de la Cruz, and P. Esquinazi. "Superconducting penetration depth in amorphous La70Cu30." Physica B+C 108B (1981): 1253–1254.
Abstract: It is shown that weak field penetration depth measurements can be used to determine the change in the normal and superconducting behaviour of amorphous samples, when heat-treated below the crystallization temperature. The results are used to discuss the validity of BCS-Gorkov relations, when applied to these materials.
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