Physics – High Energy Physics – High Energy Physics - Theory
Scientific paper
2010-09-22
Phys.Rev.D82:105022,2010
Physics
High Energy Physics
High Energy Physics - Theory
27 pages, 8 figures
Scientific paper
10.1103/PhysRevD.82.105022
In this paper we begin the study of renormalizations in the heterotically deformed N=(0,2) CP(N-1) sigma models. In addition to the coupling constant g^2 of the undeformed N=(2,2) model, there is the second coupling constant \gamma describing the strength of the heterotic deformation. We calculate both \beta functions, \beta_g and \beta_\gamma at one loop, determining the flow of g^2 and \gamma. Under a certain choice of the initial conditions, the theory is asymptotically free. The \beta function for the ratio \rho =\gamma^2/g^2 exhibits an infrared fixed point at \rho={1}{2}. Formally this fixed point lies outside the validity of the one-loop approximation. We argue, however, that the fixed point at \rho ={1}{2} may survive to all orders. The reason is the enhancement of symmetry - emergence of a chiral fermion flavor symmetry in the heterotically deformed Lagrangian - at \rho ={1}{2}. Next we argue that \beta_\rho formally obtained at one loop, is exact to all orders in the large-N (planar) approximation. Thus, the fixed point at \rho = {1}{2} is definitely the feature of the model in the large-N limit.
Cui Xiaoyi
Shifman Michael
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