Tunneling hybrid Monte-Carlo algorithm
Copyright policy )Tunneling hybrid Monte-Carlo algorithm
The hermitian Wilson kernel used in the construction of the domain-wall and overlap Dirac operators has exceptionally small eigenvalues that make it expensive to reach high-quality chiral symmetry for domain-wall fermions, or high precision in the case of the overlap operator. An efficient way of suppressing such eigenmodes consists of including a positive power of the determinant of the Wilson kernel in the Boltzmann weight, but doing this also suppresses tunneling between topological sectors. Here we propose a modification of the Hybrid Monte-Carlo algorithm which aims to restore tunneling between topological sectors by excluding the lowest eigenmodes of the Wilson kernel from the molecular-dynamics evolution, and correcting for this at the accept/reject step. We discuss the implications of this modification for the acceptance rate.
improved discussion in appendix B, RevTeX, 19 pages
- Department of Physics and Astronomy United States
- California State University, San Marcos United States
- San Francisco State University United States
- Tel Aviv University Israel
High Energy Physics - Lattice, High Energy Physics - Lattice (hep-lat), FOS: Physical sciences
High Energy Physics - Lattice, High Energy Physics - Lattice (hep-lat), FOS: Physical sciences
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