Since its emergence, the Ginzburg-Landau theory has had a tremendous success in describing thermodynamic properties of superconductivity. In the case of superfluid 3He, not all five fourth-order parameters in the theory are known. Only four combinations of the five parameters have been experimentally established and theoretical attempts to calculate the parameters have had limited success as well. We present in this thesis a method to identify the five parameters independent of one another through a close inspection of the experiments and the theoretical calculation of Sauls and Serene. In an attempt to extend our understanding of the thermodynamic properties of 3He, we have also measured the specific heat of superfluid 3He. The measurements were performed on 3He confined in a high porosity silica aerogel and they served as a probe for the effects of impurity scattering. 3He in aerogel clearly shows behavior different from that of pure 3He: including suppression of the transition temperature and the order parameter. We have also looked at 3He in silver sinter. The difference in structures between the silver sinter and the aerogel are manifested in differences in the specific heat. In both cases, however, the impurity scattering creates Andreev bound states and we present evidence for them with our measurements.

Last modified

• 08/28/2018

Creator

• Hyoungsoon Choi

DOI

• https://doi.org/10.21985/N2DQ6R

Subject

• Physics and Astronomy

Keyword

• Physics
• Condensed Matter

Date created

• 2007-12-11

Resource type

• Dissertation

Rights statement

• In Copyright