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Stable homotopy theory is that part of homotopy theory (and thus algebraic topology) concerned with all structure and phenomena that remain after sufficiently many applications of the suspension functor.
4
votes
Accepted
Computing squaring operations in the Adams spectral sequence
I think for $k>0$ currently no-one knows an efficient algorithmic way to compute the $Sq^k$, e.g., from a minimal resolution. (The $Sq^0$ is easy since it is induced by the "Frobenius" map on $A_\ast$ …
11
votes
Accepted
Adams-Novikov spectral sequence at p = 2
I don't think anybody knows how to compute this $E_2$-term efficiently (not just at the prime $2$). I would love to be proved wrong on this, of course.
So far the only documented, algorithmic method …
12
votes
Geometric interpretation of families in the stable homotopy groups of spheres
This has been a burning question for quite some time, but not much is known. Surely, people believe that the next layer (i.e. the $\beta$-family) should also admit a geometric description, although as …
15
votes
What are the best known results for the stable homotopy groups of spheres?
Computing $\pi_\ast(S)$ is a tedious business that to this day can only be done "by hand", i.e. by humans. The $p=2$ computation up to dimension 64 was completed by Kochman (see his SLNM book) with la …
5
votes
Realizing $\mathcal{A}(2)//\mathcal{A}(1)$ by a finite spectrum
As pointed out by John Rognes, this answer is not correct (it misses the $Sq^4$ from the bottom class to the class in dimension $4$). Sorry for the confusion.
=========== previous answer ============ …
7
votes
Accepted
Image of J in the classical Adams Spectral Sequence
The image of $J$ is pretty easy to see in the Adams $E_2$ term: it consists of the elements along the vanishing line, plus, in dimensions 8k-1, of the towers that end near the vanishing line.
This ide …