A Numerical Study of the 2-Flavour Schwinger Model with Dynamical Overlap Hypercube Fermions

Details A Numerical Study of the 2-Flavour Schwinger Model with Dynamical Overlap Hypercube Fermions A Numerical Study of the 2-Flavour Schwinger Model with Dynamical Overlap Hypercube Fermions

2011-09-12

arxiv.org/abs/1109.2649v3

Eur. Phys. J. C 72 (2012) 1938

Physics

High Energy Physics

High Energy Physics - Lattice

44 pages, LaTex, 12 tables, 17 figures, final version published in Eur. Phys. J. C

Scientific paper

10.1140/epjc/s10052-012-1938-9

We present numerical results for the 2-flavour Schwinger model with dynamical chiral lattice fermions. We insert an approximately chiral hypercube Dirac operator into the overlap formula to construct the overlap hypercube operator. This is an exact solution to the Ginsparg-Wilson relation, with an excellent level of locality and scaling. Due to its similarity with the hypercubic kernel, a low polynomial in this kernel provides a numerically efficient Hybrid Monte Carlo force. We measure the microscopic Dirac spectrum and discuss the corresponding scale-invariant parameter, which takes a surprising form. This is an interesting case, since Random Matrix Theory is unexplored for this setting, where the chiral condensate {\Sigma} vanishes in the chiral limit. We also measure {\Sigma} and the "pion" mass, in distinct topological sectors. In this context we discuss and probe the topological summation of observables by various methods, as well as the evaluation of the topological susceptibility. The feasibility of this summation is essential for the prospects of dynamical overlap fermions in QCD.

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