Phase Transitions at Unusual Values of θ
Abstract
We calculate the θ dependence in a cousin of QCD, where the vacuum structure can be analyzed exactly. The theory is N=2 SU(2) gauge theory with NF=0,1,2,3 flavors of fundamentals, explicitly broken to N=1 via an adjoint superpotential, and coupled to anomaly mediated supersymmetry breaking (AMSB). The hierarchy mAMSB μN=1 ensures the validity of our IR analysis. As expected from ordinary QCD, the vacuum energy is a function of θ which undergoes 1st order phase transitions between different vacua where the various dyons condense. For NF=0 we find the expected phase transition at θ=π, while for NF=1,2,3 we find phase transitions at fractional values of π.
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