Implications of Trγ5=0 in Lattice Gauge Theory
Abstract
We analyze the implications of the relation Trγ5=0, which is customarily assumed in practical lattice calculations. On the basis of the finite dimensional representations of the Ginsparg-Wilson algebra, it is shown that this relation reflects the species doubling in lattice theory; topological excitations associated with species doublers, which have eigenvalue 2/a, contribute to Trγ5 without any suppression. In this sense, the relation Trγ5=0 is valid only when we allow the presence of unphysical states in the Hilbert space; this statement is also valid in the Pauli-Villars regularization. If one eliminates the contributions of the unphysical states, the trace Trγ5 is replaced by Tr5 Tr γ5(1 -1/2aD) which gives rise to the Pontryagin index, to be consistent with the continuum analysis.
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