Constructing families of abelian varieties of $\text{GL}_2$-type over $4$-punctured complex projective line via $p$-adic Hodge theory and Langlands correspondence and application to algebraic solutions of Painleve VI equation
- Resource Type
- Working Paper
- Authors
- Yang, Jinbang; Zuo, Kang
- Source
- Subject
- Mathematics - Algebraic Geometry
Mathematics - Number Theory
- Language
we construct infinitely many non-isotrivial families of abelian varieties of $GL_2$-type over four punctured projective lines with bad reduction of type-$(1/2)_\infty$ via $p$-adic Hodge theory and Langlands correspondence. They lead to algebraic solutions of Painleve VI equation. Recently Lin-Sheng-Wang proved the conjecture on the torsionness of zeros of Kodaira-Spencer maps of those type families. Based on their theorem we show the set of those type families of abelian varieties is exactly parameterized by torsion sections of the universal family of elliptic curves modulo the involution. After our paper submitted in arxiv, Lam-Litt gave a totally new construction of those abelian schemes by applying Katz's middle convolution.
Comment: 74 pages