Polymath14: A crowd-sourced, computer-assisted analysis-definition of abelian groups
| A Number Theory, Algebra and Geometry seminar | |
|---|---|
| Speaker(s) | Apoorva Khare (IISc) |
| Date | 8 May 2024 |
| Time | 14:30 to 15:30 |
| Place | Laver Building LT6 |
| Organizer | Christopher Lazda |
Event details
Abstract
Consider the following three properties of an arbitrary group G:
1. Algebra: G is abelian and torsion-free.
2. Analysis: G is a metric space that admits a "norm", namely, a translation-invariant metric d(.,.) satisfying: d(1,g^n) = |n|d(1,g) for all g in G and integers n.
3. Geometry: G admits a length function with "saturated" subadditivity for equal arguments: l(g^2) = 2 l(g) for all g in G.
While these properties may a priori seem different, in fact they turn out to be equivalent. The nontrivial implication amounts to saying that there does not exist a non-abelian group with a "norm".
We will discuss motivations from analysis, probability, and geometry; then the proof of the above equivalences; and finally, the logistics of how the problem was solved, via a PolyMath project that began on a blogpost of Terence Tao.
(Joint - as D.H.J. PolyMath - with Tobias Fritz, Siddhartha Gadgil, Pace Nielsen, Lior Silberman, and Terence Tao.)
Location:
Laver Building LT6
