Bose-Einstein condensation and two fluid behavior in He4
Abstract
The basic assumption of this paper is that in the presence of Bose-Einstein condensation (BEC) in liquid He4 , the wave functions of occupied many particle states are the superposition of two components; a phase coherent component, proportional to the ground state wave function and a phase incoherent component. It is shown that this assumption satisfies necessary conditions imposed by the presence of BEC and that the wave functions of the ideal Bose gas and wave functions of the Bijl-Feynman type are of this form. It is shown that this single assumption provides simple microscopic explanations of essentially all the exotic properties of helium II; why BEC implies two fluid behavior, how the superfluid and condensate fractions are linked, how Landau theory is linked to the presence of BEC, why the superfluid exhibits flow without viscosity and macroscopic quantum effects while the normal fluid does not, how the anomalous expansion and loss of spatial order, observed in helium II as it is cooled, is linked to BEC, and how the presence of sharp peaks observed in the dynamic structure factor are linked with BEC. The theory provides predictions that are in quantitative agreement with a wide range of presently unexplained experimental data on helium II.
- Publication:
-
Physical Review B
- Pub Date:
- July 2006
- DOI:
- Bibcode:
- 2006PhRvB..74a4516M
- Keywords:
-
- 67.40.-w;
- 03.75.Kk;
- 03.75.Hh;
- Boson degeneracy and superfluidity of <sup>4</sup>He;
- Dynamic properties of condensates;
- collective and hydrodynamic excitations superfluid flow;
- Static properties of condensates;
- thermodynamical statistical and structural properties