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In [[mathematics]], the '''Euler sequence''' is a particular [[exact sequence]] of [[Sheaf (mathematics)|sheaves]] on ''n''-dimensional [[projective space]] over a ring. It shows that the [[sheaf of relative differentials]] is [[stably isomorphic]] to an (''n''&nbsp;+&nbsp;1)-fold sum of the dual of the Serre [[twisting sheaf]].
 
== Statement ==
For ''A'' a ring, there is an exact sequence of sheaves
 
::<math> 0 \to \Omega^1_{\mathbb P^n_A/A} \to \mathcal{O}_{\mathbb{P}^n_A}(-1)^{\oplus n+1} \to \mathcal{O}_{\mathbb{P}^n_A} \to 0.</math>
 
It can be proved by defining a homomorphism <math>S(-1)^{\oplus n+1} \to S, e_i \mapsto x_i</math> with <math>S = A[x_0,\ldots,x_n]</math> and <math>e_i = 1</math> in degree 1, surjective in degrees <math>\geq 1</math> and checking that locally on the ''n''&nbsp;+&nbsp;1 standard charts the kernel is isomorphic to the relative differential module.<ref>Theorem II.8.13 in {{Harvnb|Hartshorne|1977}}</ref>
 
==Geometric interpretation==
 
We assume that ''A'' is a field '''k'''.
 
The exact sequence above is equivalent to the sequence
:<math> 0 \to \mathcal O_{\mathbb P^{n}} \to \mathcal O (1)^{\oplus (n+1)} \to \mathcal T_{\mathbb P^n} \to 0 </math>.
 
We consider ''V'' a ''n+1'' dimensional vector space over ''k '', and explain the exact sequence
:<math>0\to  \mathcal O_{\mathbb P(V)} \to \mathcal O_{\mathbb P (V)}(1)\otimes V \to \mathcal T_{\mathbb P (V)} \to 0 </math>
 
This sequence is most easily understood by interpreting the central term as the sheaf of 1-homogeneous vector fields on the vector space ''V''. There exists a remarkable section of this sheaf, the [[Euler vector field]] tautologically defined by associating to a point of the vector space the identically associated tangent vector (''ie.'' itself : it is the identity map seen as a vector field).
 
This vector field is radial in the sense that it vanishes uniformly on 0-homogeneous functions, that is, the functions that are invariant by homothetic rescaling, or "''independent of the radial coordinate''".
 
A function (defined on some open set) on <math>\mathbb P (V)</math> gives rise by pull-back to a 0-homogeneous function on ''V'' (again partially defined). We obtain 1-homogeneous vector fields by multiplying the Euler vector field by such functions. This is the definition of the first map, and its injectivity is immediate.
 
The second map is related to the notion of derivation, equivalent to that of vector field.
Recall that a vector field on an open set ''U'' of the projective space <math>\mathbb P(V)</math> can be defined as a derivation of the functions defined on this open set. Pulled-back in ''V'', this is equivalent to a derivation on the preimage of ''U'' that preserves 0-homogeneous functions.
Any vector field on <math>\mathbb P(V)</math> can be thus obtained, and the defect of injectivity of this mapping consists precisely of the radial vector fields.
 
We see therefore that the kernel of the second morphism identifies with the range of the first one.
 
== The canonical line bundle of projective spaces==
By taking the highest [[exterior power]], one gets that the [[canonical sheaf]] of a [[Algebraic geometry of projective spaces|projective space]] is given by
:<math>\omega_{\mathbb{P}^n_A/A} = \mathcal{O}_{\mathbb{P}^n_A}(-(n+1))</math>.
In particular, projective spaces are [[Fano varieties]], because the canonical bundle is anti-[[ample line bundle|ample]] and this line bundle has no non-zero global sections, so the [[geometric genus]] is 0.
 
== Notes ==
<references/>
 
== References ==
* {{Hartshorne AG}}
 
[[Category:Algebraic geometry]]
[[Category:Projective geometry]]

Latest revision as of 07:40, 25 August 2013

In mathematics, the Euler sequence is a particular exact sequence of sheaves on n-dimensional projective space over a ring. It shows that the sheaf of relative differentials is stably isomorphic to an (n + 1)-fold sum of the dual of the Serre twisting sheaf.

Statement

For A a ring, there is an exact sequence of sheaves

0ΩAn/A1𝒪An(1)n+1𝒪An0.

It can be proved by defining a homomorphism S(1)n+1S,eixi with S=A[x0,,xn] and ei=1 in degree 1, surjective in degrees 1 and checking that locally on the n + 1 standard charts the kernel is isomorphic to the relative differential module.[1]

Geometric interpretation

We assume that A is a field k.

The exact sequence above is equivalent to the sequence

0𝒪n𝒪(1)(n+1)𝒯n0.

We consider V a n+1 dimensional vector space over k , and explain the exact sequence

0𝒪(V)𝒪(V)(1)V𝒯(V)0

This sequence is most easily understood by interpreting the central term as the sheaf of 1-homogeneous vector fields on the vector space V. There exists a remarkable section of this sheaf, the Euler vector field tautologically defined by associating to a point of the vector space the identically associated tangent vector (ie. itself : it is the identity map seen as a vector field).

This vector field is radial in the sense that it vanishes uniformly on 0-homogeneous functions, that is, the functions that are invariant by homothetic rescaling, or "independent of the radial coordinate".

A function (defined on some open set) on (V) gives rise by pull-back to a 0-homogeneous function on V (again partially defined). We obtain 1-homogeneous vector fields by multiplying the Euler vector field by such functions. This is the definition of the first map, and its injectivity is immediate.

The second map is related to the notion of derivation, equivalent to that of vector field. Recall that a vector field on an open set U of the projective space (V) can be defined as a derivation of the functions defined on this open set. Pulled-back in V, this is equivalent to a derivation on the preimage of U that preserves 0-homogeneous functions. Any vector field on (V) can be thus obtained, and the defect of injectivity of this mapping consists precisely of the radial vector fields.

We see therefore that the kernel of the second morphism identifies with the range of the first one.

The canonical line bundle of projective spaces

By taking the highest exterior power, one gets that the canonical sheaf of a projective space is given by

ωAn/A=𝒪An((n+1)).

In particular, projective spaces are Fano varieties, because the canonical bundle is anti-ample and this line bundle has no non-zero global sections, so the geometric genus is 0.

Notes

  1. Theorem II.8.13 in Template:Harvnb

References