Mirror of https://github.com/cmu-phil/Spectral in case it ever disappears
Find a file
2016-09-01 15:40:11 -04:00
algebra image of homomorphism is subgroup 2016-05-12 16:57:33 -04:00
homotopy feat(EM): Work on uniqueness of K(G,n)'s 2016-09-01 14:08:42 -04:00
Notes added SStodo9_2016 2016-09-01 15:40:11 -04:00
.gitignore add .gitignore and .project files 2015-11-20 17:55:33 -05:00
.project add .gitignore and .project files 2015-11-20 17:55:33 -05:00
LICENSE add some copyright notices and LICENSE file 2016-04-06 12:35:30 -04:00
README.md update README 2016-06-26 09:25:50 +01:00

Spectral Sequences

Formalization project of the CMU HoTT group towards formalizing the Serre spectral sequence.

Participants

Jeremy Avigad, Steve Awodey, Ulrik Buchholtz, Floris van Doorn, Clive Newstead, Egbert Rijke, Mike Shulman.

Resources

  • Mike's blog post at the HoTT blog.
  • Mike's blog post at the n-category café.
  • The Licata-Finster article about Eilenberg-Mac Lane spaces.
  • We learned about the Serre spectral sequence from Hatcher's chapter about spectral sequences.
  • Lang's algebra (revised 3rd edition) contains a chapter on general homology theory, with a section on spectral sequences. Thus, we can use this book at least as an outline for the algebraic part of the project.
  • Mac Lane's Homology contains a lot of homological algebra and a chapter on spectral sequences, including exact couples.

Things to do for Lean spectral sequences project

Algebra To Do:

Topology To Do:

  • fiber sequence
    • already have the LES
    • need shift isomorphism
    • Hom'ing into a fiber sequence gives another fiber sequence.
  • cofiber sequences
    • Hom'ing out gives a fiber sequence: if A → B → coker f cofiber sequences, then X^A → X^B → X^(coker f) is a fiber sequence.
  • prespectra and spectra, suspension
    • try indexing on arbitrary successor structure
    • think about equivariant spectra indexed by representations of G
  • spectrification
    • adjoint to forgetful
    • as sequential colimit, prove induction principle (if useful)
    • connective spectrum: is_conn n.-2 Eₙ
  • parametrized spectra, parametrized smash and hom between types and spectra
  • fiber and cofiber sequences of spectra, stability
    • limits are levelwise
    • colimits need to be spectrified
  • long exact sequences from (co)fiber sequences of spectra
    • indexed on , need to splice together LES's
  • Postnikov towers of spectra
    • basic definition already there
    • fibers of Postnikov sequence unstably and stably
  • exact couple of a tower of spectra
    • need to splice together LES's

Already Done:

  • Most things in the HoTT Book up to Section 8.9 (see this file)
  • pointed types, maps, homotopies and equivalences
  • definition of algebraic structures such as groups, rings, fields
  • some algebra: quotient, product, free groups.
  • Eilenberg-MacLane spaces and EM-spectrum