Abstract

It has been shown that non-Abelian solitonic vortex strings supported in four-dimensional (4D) ${\mathcal N}=2\;$ supersymmetric QCD (SQCD) with the U($N=2$) gauge group and $N_f=4$ quark flavors behave as critical superstrings. In addition to four translational moduli non-Abelian strings under consideration carry six orientational and size moduli. Together they form a ten-dimensional space required for a superstring to be critical. The target space of the string sigma model is a product of the flat four-dimensional space $\mathbb{R}^4$ and a Calabi-Yau non-compact threefold $Y_6$, namely, the conifold. The spectrum of low lying closed string states in the associated type IIA string theory was found and interpreted as a spectrum of hadrons in 4D ${\mathcal N}=2\;$ SQCD. In particular, the lowest string state appears to be a massless BPS baryon associated with the deformation of the complex structure modulus $b$ of the conifold. Here we address a problem of switching on quark masses in 4D SQCD, which classically breaks the world sheet conformal invariance in the string sigma model. To avoid this problem we follow a standard string theory approach and use a flux "compactification" to lift the complex structure modulus of the conifold. Namely, we find a solution of supergravity equations of motion with non-zero NS 3-form flux. It produces a potential for the baryon $b$, which leads to the run-away vacuum. Using field theory arguments we interpret 3-form flux in terms of a particular choice of quark masses in 4D SQCD. At the run-away vacuum the conifold degenerates to lower dimensions. We interpret this as a flow from a non-Abelian string to an Abelian one.

Highlights

  • It was shown in [1] that the non-Abelian solitonic vortex string in four-dimensional (4D) N 1⁄4 2 supersymmetric QCD (SQCD) with the UðN 1⁄4 2Þ gauge group and Nf 1⁄4 4 flavors of quark hypermultiplets becomes a critical superstring

  • Non-Abelian vortices were first found in N 1⁄4 2 SQCD with the gauge group UðNÞ and Nf ≥ N flavors of quarks [2,3,4,5]

  • Making quarks massive lifts some of the orientational and size moduli of the non-Abelian string. This breaks the conformal invariance of the world sheet WCPð2; 2Þ model preventing the formulation of the string theory in this case. This problem is puzzling because from the standpoint of 4D SQCD switching on quark masses is physically the most natural deformation one can consider

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Summary

INTRODUCTION

It was shown in [1] that the non-Abelian solitonic vortex string in four-dimensional (4D) N 1⁄4 2 supersymmetric QCD (SQCD) with the UðN 1⁄4 2Þ gauge group and Nf 1⁄4 4 flavors of quark hypermultiplets becomes a critical superstring. Making quarks massive lifts some of the orientational and size moduli of the non-Abelian string This breaks the conformal invariance of the world sheet WCPð2; 2Þ model (at least classically) preventing the formulation of the string theory in this case. This problem is puzzling because from the standpoint of 4D SQCD switching on quark masses is physically the most natural deformation one can consider.

NON-ABELIAN CRITICAL VORTEX STRING
World sheet sigma model
Massless 4D baryon
NS 3-FORM
Solution for NS 3-form at large r
A generalization
Mass term for b-baryon
The potential for the baryon b
DEFORMED CONIFOLD
Metric of the deformed conifold
NS 3-form at small τ
INTERPRETATION IN TERMS OF 4D SQCD
Degeneration of the conifold pffiffi
CONCLUSIONS

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