Difference between revisions of "De Rham cohomology"
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''of an algebraic variety'' | ''of an algebraic variety'' | ||
− | A [[Cohomology|cohomology]] theory of algebraic varieties based on differential forms. To every algebraic variety | + | A |
+ | [[Cohomology|cohomology]] theory of algebraic varieties based on differential forms. To every algebraic variety $X$ over a field $k$ is associated a complex of regular differential forms (see | ||
+ | [[Differential form|Differential form]] on an algebraic variety); its cohomology groups $H_{\text{dR}}^p (X/k)$ are called the de Rham cohomology groups of $X$. If $X$ is a smooth complete variety and if $\text{char } k=0$, then de Rham cohomology is a special case of | ||
+ | [[Weil cohomology|Weil cohomology]] (see | ||
+ | [[#References|[2]]], | ||
+ | [[#References|[3]]]). If $X$ is a smooth affine variety and if $k = \mathbf{C}$, then the following analogue of the | ||
+ | [[De Rham theorem|de Rham theorem]] is valid: | ||
− | + | $$H_{\text{dR}^p(X/k) \cong H^p(X^\text{an}, \mathbf{C}), \qquad p \ge 0,$$ | |
− | where | + | where $X^\text{an}$ is the complex-analytic manifold corresponding to the algebraic variety $X$ (see |
+ | [[#References|[1]]]). For example, if $X$ is the complement of an algebraic hypersurface in $P^n(\mathbf{C})$, then the cohomology group $H^p(X, \mathbf{C})$ can be calculated using rational differential forms on $P^n(\mathbf{C})$ with poles on this hypersurface. | ||
− | For any morphism | + | For any morphism $f:X\to S$ it is possible to define the relative de Rham complex $\sum_{p\ge 0} \Gamma(\Omega_{X/S}^p)$ (see |
+ | [[Derivations, module of|Derivations, module of]]), which results in the relative de Rham cohomology groups $H^_{\text{dR}}^p (X/S)$. If $X=\text{Spec } A$ and $S=\text{Spec } B$ are affine, the relative de Rham complex coincides with $\Lambda \Omega_{A/B}^1$. The cohomology groups $\mathcal{H}_{\text{dR}}^p (X/S)$ of the sheaf complex $\sum_{p\ge 0} f \ast \Omega_{X/S}^p$ on $S$ are called the relative de Rham cohomology sheaves. These sheaves are coherent on $S$ if $f$ is a | ||
+ | [[Proper morphism|proper morphism]]. | ||
====References==== | ====References==== | ||
− | <table><TR><TD valign="top">[1]</TD> <TD valign="top"> A. Grothendieck, "On the de Rham cohomology of algebraic varieties" ''Publ. Math. IHES'' , '''29''' (1966) pp. 351–359</TD></TR><TR><TD valign="top">[2]</TD> <TD valign="top"> R. Hartshorne, "Ample subvarieties of algebraic varieties" , Springer (1970)</TD></TR><TR><TD valign="top">[3]</TD> <TD valign="top"> R. Hartshorne, "On the de Rham cohomology of algebraic varieties" ''Publ. Math. IHES'' , '''45''' (1975) pp. 5–99</TD></TR></table> | + | <table><TR><TD valign="top">[1]</TD> |
+ | <TD valign="top"> A. Grothendieck, "On the de Rham cohomology of algebraic varieties" ''Publ. Math. IHES'' , '''29''' (1966) pp. 351–359</TD> | ||
+ | </TR><TR><TD valign="top">[2]</TD> | ||
+ | <TD valign="top"> R. Hartshorne, "Ample subvarieties of algebraic varieties" , Springer (1970)</TD> | ||
+ | </TR><TR><TD valign="top">[3]</TD> | ||
+ | <TD valign="top"> R. Hartshorne, "On the de Rham cohomology of algebraic varieties" ''Publ. Math. IHES'' , '''45''' (1975) pp. 5–99</TD> | ||
+ | </TR></table> |
Revision as of 01:15, 23 July 2018
of an algebraic variety
A cohomology theory of algebraic varieties based on differential forms. To every algebraic variety $X$ over a field $k$ is associated a complex of regular differential forms (see Differential form on an algebraic variety); its cohomology groups $H_{\text{dR}}^p (X/k)$ are called the de Rham cohomology groups of $X$. If $X$ is a smooth complete variety and if $\text{char } k=0$, then de Rham cohomology is a special case of Weil cohomology (see [2], [3]). If $X$ is a smooth affine variety and if $k = \mathbf{C}$, then the following analogue of the de Rham theorem is valid:
$$H_{\text{dR}^p(X/k) \cong H^p(X^\text{an}, \mathbf{C}), \qquad p \ge 0,$$
where $X^\text{an}$ is the complex-analytic manifold corresponding to the algebraic variety $X$ (see [1]). For example, if $X$ is the complement of an algebraic hypersurface in $P^n(\mathbf{C})$, then the cohomology group $H^p(X, \mathbf{C})$ can be calculated using rational differential forms on $P^n(\mathbf{C})$ with poles on this hypersurface.
For any morphism $f:X\to S$ it is possible to define the relative de Rham complex $\sum_{p\ge 0} \Gamma(\Omega_{X/S}^p)$ (see Derivations, module of), which results in the relative de Rham cohomology groups $H^_{\text{dR}}^p (X/S)$. If $X=\text{Spec } A$ and $S=\text{Spec } B$ are affine, the relative de Rham complex coincides with $\Lambda \Omega_{A/B}^1$. The cohomology groups $\mathcal{H}_{\text{dR}}^p (X/S)$ of the sheaf complex $\sum_{p\ge 0} f \ast \Omega_{X/S}^p$ on $S$ are called the relative de Rham cohomology sheaves. These sheaves are coherent on $S$ if $f$ is a proper morphism.
References
[1] | A. Grothendieck, "On the de Rham cohomology of algebraic varieties" Publ. Math. IHES , 29 (1966) pp. 351–359 |
[2] | R. Hartshorne, "Ample subvarieties of algebraic varieties" , Springer (1970) |
[3] | R. Hartshorne, "On the de Rham cohomology of algebraic varieties" Publ. Math. IHES , 45 (1975) pp. 5–99 |
De Rham cohomology. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=De_Rham_cohomology&oldid=17027