Difference between revisions of "Federer spectral sequence"
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| − | + | The Federer spectral sequence is a means to compute homotopy groups of function spaces (track groups; cf. [[Homotopy group|Homotopy group]]). Its $ E _ {2} $- | |
| + | stage consists of the singular cohomology (cf. [[Singular homology|Singular homology]]) of the source with coefficients in the homotopy groups of the target. | ||
| − | and | + | More specifically, let $ X $ |
| + | and $ Y $ | ||
| + | be connected topological spaces (cf. [[Connected space|Connected space]]) and $ u : X \rightarrow Y $ | ||
| + | a [[Continuous mapping|continuous mapping]]. The Federer spectral sequence for this situation is a second quadrant homology [[Spectral sequence|spectral sequence]] $ ( E _ {** } ^ {r} ,d ^ {r} ) $, | ||
| + | with | ||
| + | |||
| + | $$ | ||
| + | E _ {pq } ^ {2} = H ^ {- p } ( X; \pi _ {q} ( Y ) ) \textrm{ for } p + q \geq 0 | ||
| + | $$ | ||
| + | |||
| + | and $ E _ {pq } ^ {2} = 0 $ | ||
| + | otherwise. Under appropriate finiteness conditions it converges to the homotopy group $ \pi _ {p + q } ( { \mathop{\rm map} } ( X,Y ) ,u ) $ | ||
| + | of the space of continuous mappings from $ X $ | ||
| + | to $ Y $. | ||
In the literature, this spectral sequence occurs explicitly in [[#References|[a1]]] and implicitly in [[#References|[a2]]] (and is for this reason sometimes referred to as the Barratt–Federer spectral sequence). See [[#References|[a3]]] or [[#References|[a4]]] for later generalizations and modifications. | In the literature, this spectral sequence occurs explicitly in [[#References|[a1]]] and implicitly in [[#References|[a2]]] (and is for this reason sometimes referred to as the Barratt–Federer spectral sequence). See [[#References|[a3]]] or [[#References|[a4]]] for later generalizations and modifications. | ||
Latest revision as of 19:38, 5 June 2020
The Federer spectral sequence is a means to compute homotopy groups of function spaces (track groups; cf. Homotopy group). Its $ E _ {2} $-
stage consists of the singular cohomology (cf. Singular homology) of the source with coefficients in the homotopy groups of the target.
More specifically, let $ X $ and $ Y $ be connected topological spaces (cf. Connected space) and $ u : X \rightarrow Y $ a continuous mapping. The Federer spectral sequence for this situation is a second quadrant homology spectral sequence $ ( E _ {** } ^ {r} ,d ^ {r} ) $, with
$$ E _ {pq } ^ {2} = H ^ {- p } ( X; \pi _ {q} ( Y ) ) \textrm{ for } p + q \geq 0 $$
and $ E _ {pq } ^ {2} = 0 $ otherwise. Under appropriate finiteness conditions it converges to the homotopy group $ \pi _ {p + q } ( { \mathop{\rm map} } ( X,Y ) ,u ) $ of the space of continuous mappings from $ X $ to $ Y $.
In the literature, this spectral sequence occurs explicitly in [a1] and implicitly in [a2] (and is for this reason sometimes referred to as the Barratt–Federer spectral sequence). See [a3] or [a4] for later generalizations and modifications.
References
| [a1] | H. Federer, "A study of function spaces by spectral sequences" Trans. Amer. Math. Soc. , 82 (1956) pp. 340–361 |
| [a2] | M.G. Barratt, "Track groups I, II" Proc. London Math. Soc. , 5 (1955) pp. 71–106; 285–329 |
| [a3] | R. Brown, "On Künneth suspensions" Proc. Cambridge. Philos. Soc. , 60 (1964) pp. 713–720 |
| [a4] | J.M. Møller, "On equivariant function spaces" Pacific J. Math. , 142 (1990) pp. 103–119 |
How to Cite This Entry:
Federer spectral sequence. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Federer_spectral_sequence&oldid=46909
Federer spectral sequence. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Federer_spectral_sequence&oldid=46909
This article was adapted from an original article by J.M. Møller (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article