Non-linear geometry of multiple zeta values

Conference item

Since their rediscovery in the 1990s, multiple zeta values have become ubiquitous in many areas of mathematics and physics. Their standard integral and sum representations can usually be traced back to a single source, namely the iterated integrals on the Riemann sphere with three punctures. We refer to such representations as the linear geometry of multiple zeta values, since the denominators of the corresponding integrands factor completely into linear terms.

However, there also exist equally important and entirely distinct integral representations for multiple zeta values arising in mathematics and physics, in which matrix determinants appear in the denominator of the integrand. We call this the non-linear geometry of multiple zeta values. These lectures trace the origins of this non-linear geometry and provide an introductory journey through a range of topics including tropical geometry, the moduli spaces of tropical curves, Feynman integrals in quantum field theory, the general linear group of integer matrices, and the reduction theory of quadratic forms. In doing so, we propose a geometric framework for multiple zeta values based on such non-linear, determinantal representations and set out a number of open questions for future research.

Authors: Brown, F

• Publication status: Published
• Publisher: Mathematical Society of Japan
• Host title: Proceedings of the 17th MSJ-SI conference on Modular forms and Multiple Zeta values
• Acceptance date: 2026-04-25
• Event title: 17th MSJ-SI conference on Modular forms and Multiple Zeta values
• Event location: Higashi-Osaka, Japan
• Event website: https://www.apu.ac.jp/~rintaro/MK60/indexE.html
• Event start date: 2025-02-17
• Event end date: 2025-02-22
• Language: English