Physics – High Energy Physics – High Energy Physics - Theory
Scientific paper
1992-12-17
Phys.Lett. B302 (1993) 403-410
Physics
High Energy Physics
High Energy Physics - Theory
13 pages, harvmac.tex , 3 figures (postscript file included), SPhT/92-159
Scientific paper
10.1016/0370-2693(93)90417-G
The most general large N eigenvalues distribution for the one matrix model is shown to consist of tree-like structures in the complex plane. For the m=2 critical point, such a split solution describes the strong coupling phase of 2d quantum gravity (c=0 non-critical string). It is obtained by taking combinations of complex contours in the matrix integral, and the relative weight of the contours is identified with the non-perturbative theta-parameter that fixes uniquely the solution of the string equation (Painleve I). This allows to recover by instanton methods results on the non-perturbative effects obtained by the Isomonodromic Deformation Method, and to construct for each theta-vacuum the observables (the loop correlation functions) which satisfy the loop equations. The breakdown of analyticity of the large N solution is related to the existence of poles for the loop operators.
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