NewEvery arXiv paper, its researchers & institutions — mapped.
paper

Measuring The Heat Capacity in a Bose-Einstein Condensation using Global Variables

arXiv:1408.5852 · doi:10.1103/PhysRevA.90.043640

Abstract

Phase transitions are well understood and generally followed by the behavior of the associated thermodynamic quantities, such as in the case of the $λ$ point superfluid transition of liquid helium, which is observed in its heat capacity. In the case of a trapped Bose-Einstein condensate (BEC), the heat capacity cannot be directly measured. In this work, we present a technique able to determine the global heat capacity from the density distribution of a weakly interacting gas trapped in an inhomogeneous potential. This approach represents an alternative to models based on local density approximation. By defining a pair of global conjugate variables, we determine the total internal energy and its temperature derivative, the heat capacity. We then apply the technique to a trapped $^{87}$Rb BEC a $λ$-type transition dependent on the atom number is observed, and the deviations from the non-interacting, ideal gas case are discussed. Finally we discuss the chances of using this method to study the heat capacity at $T \rightarrow 0$.

9 pages, 4 figures