Stable homotopy theory

In mathematics, 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. A founding result was the Freudenthal suspension theorem, which states that for a given CW-complex "X" the (n+i)^th homotopy group of its i^th iterated suspension, π_"n"+"i" (Σ^"i""X"), becomes stable (i.e. isomorphic after further iteration) for large but finite values of i. For instance,

:ℤ"S"¹> = π₁("S"¹) &cong; π₂("S"²) &cong; π₃("S"³) &cong; π₄("S"⁴) &cong; ... and:ℤ<η> = π₃("S"²) → π₄("S"³) &cong; π₅("S"⁴) &cong; ...

In the two examples above all the maps between homotopy groups are applications of the suspension functor. Thus the first example is a restatement of the Hurewicz theorem, that π_"n"("S"^"n") &cong; ℤ"S"^"n" >. In the second example the Hopf map, η, is mapped to Ση which generates π₄("S"³) &cong; ℤ/2.

One of the most important problems in stable homotopy theory is the computation of stable homotopy groups of spheres. According to Freudenthal's theorem, in the stable range the homotopy groups of spheres depend not on the specific dimensions of the spheres in the domain and target, but on the difference in those dimensions. With this in mind the k^th stable stem is $pi_{k}^{S}$ := lim π_"n"+"k" ("S"^"n"). This is an abelian group for all "k". It is a theorem of Serre that these groups are finite if "k" > 0. In fact, composition makes $pi_*^{S}$ into a graded ring. Nishida's theorem states that all elements of positive grading in this ring are nilpotent. Thus the only prime ideals are the primes in $pi_0^{S}$ &cong; ℤ. So the structure of $pi_*^{S}$ is quite complicated.

In the modern treatment of stable homotopy, spaces are typically replaced by spectra. Following this line of thought, an entire stable homotopy category can be created. This category has many nice properties not found in the (unstable) homotopy category of spaces, following from the fact that the suspension functor becomes invertible. For example, the notion of cofibration sequence and fibration sequence are equivalent.

ee also

*Adams filtration

References

*" Stable Homotopy Theory ", by J.F.Adams, Springer-Verlag Lecture Notes in Mathematics No.3 (1969)
* J.P.May ," [http://www.math.uchicago.edu/~may/PAPERS/history.pdf Stable Algebraic Topology, 1945-1966 ] "
*"Nilpotence and Periodicity in Stable Homotopy Theory", D.C. Ravenel, Princeton Univ. Press (1992)

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