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The critical field curve of mercury has been precisely measured in a range of reduced temperature, t=T{T₂}, from 1 to 0. 27. The observed H₂ values show an appreciable deviation from a parabolic temperature dependence, lying above the parabola which passes through the experimental values of H₀ and T₂. The general behavior is similar to that previously observed in the case of lead. Values of the temperature coefficient of the normal electronic specific heat, , are derived, but are somewhat uncertain since the H₂ data indicate an appreciable entropy contribution from the superconducting electrons at the lowest temperature of measurement. The qualitative behavior of H₂ (T) for lead and mercury is in accord with recent infrared measurements which give direct indication that the energy gap value for these elements is anomalously large.
Finnemore et al. (Fri,) studied this question.
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