Moduli of Stable Parabolic Connections, Riemann-Hilbert correspondence and Geometry of Painlev\'e equation of type VI, Part I

Abstract

In this paper, we will give a complete geometric background for the geometry of Painlev\'e VI and Garnier equations. By geometric invariant theory, we will construct a smooth coarse moduli space Mn(, , L) of stable parabolic connection on 1 with logarithmic poles at D() = t1 + ... + tn as well as its natural compactification. Moreover the moduli space (n, ) of Jordan equivalence classes of SL2()-representations of the fundamental group π1(1 D(),) are defined as the categorical quotient. We define the Riemann-Hilbert correspondence : Mn(, , L) (n, ) and prove that is a bimeromorphic proper surjective analytic map. Painlev\'e and Garnier equations can be derived from the isomonodromic flows and Painlev\'e property of these equations are easily derived from the properties of . We also prove that the smooth parts of both moduli spaces have natural symplectic structures and is a symplectic resolution of singularities of (n, ), from which one can give geometric backgrounds for other interesting phenomena, like Hamiltonian structures, B\"acklund transformations, special solutions of these equations.

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