Low-Energy Effective Theories of Quantum Link and Quantum Spin Models

Abstract

Quantum spin and quantum link models provide an unconventional regularization of field theory in which classical fields arise via dimensional reduction of discrete variables. This D-theory regularization leads to the same continuum theories as the conventional approach. We show this by deriving the low-energy effective Lagrangians of D-theory models using coherent state path integral techniques. We illustrate our method for the (2+1)-d Heisenberg quantum spin model which is the D-theory regularization of the 2-d O(3) model. Similarly, we prove that in the continuum limit a (2+1)-d quantum spin model with SU(N)L× SU(N)R× U(1)L=R symmetry is equivalent to the 2-d principal chiral model. Finally, we show that (4+1)-d SU(N) quantum link models reduce to ordinary 4-d Yang-Mills theory.

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