Wilson Loops in 2D Noncommutative Euclidean Gauge Theory: 2. 1/θ Expansion

Details Wilson Loops in 2D Noncommutative Euclidean Gauge Theory: 2. 1/θ Expansion Wilson Loops in 2D Noncommutative Euclidean Gauge Theory: 2. 1/θ Expansion

2007-03-13

arxiv.org/abs/hep-th/0703123v1

JHEP0710:079,2007

Physics

High Energy Physics

High Energy Physics - Theory

LaTex, 50pp., 9 PostScript figures

Scientific paper

10.1088/1126-6708/2007/10/079

We analyze the $1/\theta$ and 1/N expansions of the Wilson loop averages $_{U_\theta (N)}$ in the two-dimensional noncommutative $U_\theta (N)$ gauge theory with the parameter of noncommutativity $\theta$. For a generic rectangular contour $C$, a concise integral representation is derived (non-perturbatively both in the coupling constant $g^{2}$ and in $\theta$) for the next-to-leading term of the $1/\theta$ expansion. In turn, in the limit when ${\theta}$ is much larger than the area $A(C)$ of the surface bounded by $C$, the large $\theta$ asymptote of this representation is argued to yield the next-to-leading term of the $1/\theta$ series. For both of the expansions, the next-to-leading contribution exhibits only a power-like decay for areas $A(C)>>\sigma^{-1}$ (but $A(C)<<{\theta}$) much larger than the inverse of the string tension $\sigma$ defining the range of the exponential decay of the leading term. Consequently, for large $\theta$, it hinders a direct stringy interpretation of the subleading terms of the 1/N expansion in the spirit of Gross-Taylor proposal for the $\theta=0$ commutative D=2 gauge theory.

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