A local formulation of lattice Wess-Zumino model with exact $\U(1)_R$ symmetry

Details A local formulation of lattice Wess-Zumino model with exact $\U(1)_R$ symmetry A local formulation of lattice Wess-Zumino model with exact $\U(1)_R$ symmetry

2004-12-28

arxiv.org/abs/hep-lat/0412042v2

JHEP0502:012,2005

Physics

High Energy Physics

High Energy Physics - Lattice

1+29 pages, 5 figures, uses JHEP3.cls, the final version to appear in JHEP, a note added

Scientific paper

10.1088/1126-6708/2005/02/012

A lattice Wess-Zumino model is formulated on the basis of Ginsparg-Wilson fermions. In perturbation theory, our formulation is equivalent to the formulation by Fujikawa and Ishibashi and by Fujikawa. Our formulation is, however, free from a singular nature of the latter formulation due to an additional auxiliary chiral supermultiplet on a lattice. The model posssesses an exact $\U(1)_R$ symmetry as a supersymmetric counterpart of the L\"uscher lattice chiral $\U(1)$ symmetry. A restration of the supersymmetric Ward-Takahashi identity in the continuum limit is analyzed in renormalized perturbation theory. In the one-loop level, a supersymmetric continuum limit is ensured by suitably adjusting a coefficient of a single local term $\tilde F^*\tilde F$. The non-renormalization theorem holds to this order of perturbation theory. In higher orders, on the other hand, coefficents of local terms with dimension $\leq4$ that are consistent with the $\U(1)_R$ symmetry have to be adjusted for a supersymmetric continuum limit. The origin of this complexicity in higher-order loops is clarified on the basis of the Reisz power counting theorem. Therefore, from a view point of supersymmetry, the present formulation is not quite better than a lattice Wess-Zumino model formulated by using Wilson fermions, although a number of coefficients which require adjustment is much less due to the exact $\U(1)_R$ symmetry. We also comment on an exact non-linear fermionic symmetry which corresponds to the one studied by Bonini and Feo; an existence of this exact symmetry itself does not imply a restoration of supersymmetry in the continuum limit without any adjustment of parameters.

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