Chromatic homotopy theory

In mathematics, chromatic homotopy theory is a subfield of stable homotopy theory that studies complex-oriented cohomology theories from the "chromatic" point of view, which is based on Quillen's work relating cohomology theories to formal groups. In this picture, theories are classified in terms of their "chromatic levels"; i.e., the heights of the formal groups that define the theories via the Landweber exact functor theorem. Typical theories it studies include: complex K-theory, elliptic cohomology, Morava K-theory and tmf.

Chromatic convergence theorem

In algebraic topology, the chromatic convergence theorem states the homotopy limit of the chromatic tower (defined below) of a finite p-local spectrum is itself. The theorem was proved by Hopkins and Ravenel.

Statement

Let denotes the Bousfield localization with respect to the Morava E-theory and let be a finite, -local spectrum. Then there is a tower associated to the localizations

called the chromatic tower, such that its homotopy limit is homotopic to the original spectrum .

The stages in the tower above are often simplifications of the original spectrum. For example, is the rational localization and is the localization with respect to p-local K-theory.

Stable homotopy groups

In particular, if the -local spectrum is the stable -local sphere spectrum , then the homotopy limit of this sequence is the original -local sphere spectrum. This is a key observation for studying stable homotopy groups of spheres using chromatic homotopy theory.

See also

References

    • Lurie, J. (2010). "Chromatic Homotopy Theory". 252x (35 lectures). Harvard University.
    • Lurie, J. (2017–2018). "Unstable Chomatic Homotopy Theory". 19 Lectures. Institute for Advanced Study.
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