From Knots to Number Theory II
Offered By: ICTP Mathematics via YouTube
Course Description
Overview
Explore the fascinating connections between quantum invariants of knots and 3-manifolds and advanced number theory in this comprehensive lecture. Delve into the rigidity theorems of 3-dimensional hyperbolic topology and their arithmetic implications, linking hyperbolic 3-manifold volumes to the Bloch group and algebraic K-theory through the dilogarithm. Discover the Kashaev invariant's relationship to hyperbolic volume and the Habiro ring. Investigate recent developments in algebraic number theory, including the construction of non-trivial units and extensions of the Habiro ring to arbitrary algebraic number fields. Uncover the surprising "quantum modularity" properties of the Kashaev invariant and its generalizations, leading to new concepts in modular forms theory. Learn about collaborative research with Stavros Garoufalidis, Rinat Kashaev, and Peter Scholze. Gain insights into topics such as regulators, inverse limits, congruence, Norman Sagir equations, the Gashith invariant, and power series with coefficients. No prior knowledge of knot theory, K-theory, or modular forms theory is required for this accessible lecture designed for a general mathematical audience.
Syllabus
Introduction
Welcome
Number Theory
Regulators
Inverse Limit
Congruence
Topology
Norman Sagir Equations
Two Three Partner Move
Gashith Invariant
The power series
Power series with coefficients
The product
Taught by
ICTP Mathematics
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