Monday, March 12, 2012

1203.2052 (S. Tagliati et al.)

Absolute specific heat measurements of a microgram Pb crystal using ac
nanocalorimetry
   [PDF]

S. Tagliati, A. Rydh
Heat capacity measurements using the ac steady state method are often considered difficult to provide absolute accuracy. By adjusting the working frequency to maintain a constant phase and using the phase information to obtain the heat capacity, we have found that it is possible to achieve good absolute accuracy. Here we present a thermodynamic study of a ~ 2.6 {\mu}g Pb superconducting crystal to demonstrate the newly opened capabilities. The sample is measured using a differential membrane-based calorimeter. The custom-made calorimetric cell is a pile of thin film Ti heater, insulation layer and Ge_{1-x}Au_{x} thermometer fabricated in the center of two Si_{3}N_{4} membranes. It has a background heat capacity < 100 nJ/K at 300K, decreasing to 9 pJ/K at 1 K. The sample is characterized at temperatures down to 0.5 K. The zero field transition at Tc = 7.21 K has a width \approx 20 mK and displays no upturn in C. From the heat capacity jump at Tc and the extrapolated Sommerfeld term we find \DeltaC/{\gamma}Tc = 2.68. The latent heat curve obtained from the zero field heat capacity measurement, and the deviations of the thermodynamic critical field from the empirical expression Hc =Hc(0)[1-(T/Tc)^2] are discussed. Both analyses give results in good agreement with literature.
View original: http://arxiv.org/abs/1203.2052

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