The density in the density of states method
Aug 30, 2013
Citations per year
Abstract: (arXiv)
It has been suggested that for QCD at finite baryon density the distribution of the phase angle, i.e. the angle defined as the imaginary part of the logarithm of the fermion determinant, has a simple Gaussian form. This distribution provides the density in the density of states approach to the sign problem. We calculate this phase angle distribution using i) the hadron resonance gas model; and ii) a combined strong coupling and hopping parameter expansion in lattice gauge theory. While the former model leads only to a Gaussian distribution, in the latter expansion we discover terms which cause the phase angle distribution to deviate, by relative amounts proportional to powers of the inverse lattice volume, from a simple Gaussian form. We show that despite the tiny inverse-volume deviation of the phase angle distribution from a simple Gaussian form, such non-Gaussian terms can have a substantial impact on observables computed in the density of states/reweighting approach to the sign problem.Note:
- 43 pages, 4 figures
- Lattice QCD
- Nonperturbative Effects
- Phase Diagram of QCD
- Strong Coupling Expansion
- baryon: density
- hadron: resonance: gas
- fermion: determinant
- gas: model
- hopping parameter expansion
- lattice field theory
References(37)
Figures(4)
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