Leray spectral sequence

In mathematics, the Leray spectral sequence was a pioneering example in homological algebra, introduced in 1946 by Jean Leray. It is usually seen nowadays as a special case of the Grothendieck spectral sequence.

Definition

The formulation was of a spectral sequence, expressing the relationship holding in sheaf cohomology between two topological spaces X and Y, and set up by a continuous mapping

f :X → Y.

In modern terms

At the time of Leray's work, neither of the two concepts involved (spectral sequence, sheaf cohomology) had reached anything like a definitive state. Therefore it is rarely the case that Leray's result is quoted in its original form. After much work, in the seminar of Henri Cartan in particular, a statement was reached of this kind: assuming some hypotheses on X and Y, and a sheaf F on X, there is a direct image sheaf

f_∗F

on Y.

There are also higher direct images

Rqf_∗F.

The E₂ term of the typical Leray spectral sequence is

H^p(Y, Rqf_∗F).

The required statement is that this abuts to the sheaf cohomology

H^p+q(X, F).

Connection to other spectral sequences

In the formulation achieved by Alexander Grothendieck by about 1957, this is the Grothendieck spectral sequence for the composition of two derived functors.

Earlier (1948/9) the implications for fibrations were extracted as the Serre spectral sequence, which makes no use of sheaves.

External links

• Springer encyclopedia article