Chromatic homotopy theory is asymptotically algebraic
Tobias Barthel, Tomer M. Schlank, Nathaniel Stapleton
Abstract
Abstract Inspired by the Ax–Kochen isomorphism theorem, we develop a notion of categorical ultraproducts to capture the generic behavior of an infinite collection of mathematical objects. We employ this theory to give an asymptotic solution to the approximation problem in chromatic homotopy theory. More precisely, we show that the ultraproduct of the E ( n , p )-local categories over any non-principal ultrafilter on the set of prime numbers is equivalent to the ultraproduct of certain algebraic categories introduced by Franke. This shows that chromatic homotopy theory at a fixed height is asymptotically algebraic.
Topics & Concepts
MathematicsUltraproductHomotopyUltrafilterDiscrete mathematicsIsomorphism (crystallography)n-connectedPure mathematicsCategorical variableHomotopy categoryAlgebraic numberHomomorphismAlgebra over a fieldCofibrationDimension of an algebraic varietyModel theoryHomotopy sphereRegular homotopyChromatic scaleEilenberg–MacLane spaceFibrationSet (abstract data type)CombinatoricsHomotopy and Cohomology in Algebraic TopologyAlgebraic structures and combinatorial modelsAdvanced Topology and Set Theory