Eli Eisenberg, Elliott H. Lieb
Published 2002-07-01, updated 2002-10-31Version 4
We demonstrate rigorously that in the absence of explicit spin-dependent forces one of the ground states of interacting bosons with spin is always fully polarized -- however complicated the many-body interaction potential might be. Depending on the particle spin, the polarized ground state will generally be degenerate with other states, but one can specify the exact degeneracy. For T>0 the magnetization and susceptibility necessarily exceed that of a pure paramagnet. These results are relevant to recent experiments exploring the relation between triplet superconductivity and ferromagnetism, and the Bose-Einstein condensation of atoms with spin. They eliminate the possibility, raised in some theoretical speculations, that the ground state or positive temperature state might be antiferromagnetic.
Comments: v4: as published in PRL
Journal: Phys. Rev. Lett. 89, 220403 (2002) .
Emergence of correlations in the process of thermalization of interacting bosons
Structure of wavefunction for interacting bosons in mean-field with random $k$-body interactions
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