Arithmetic genus

In mathematics, the arithmetic genus of an algebraic variety is one of a few possible generalizations of the genus of an algebraic curve or Riemann surface.

Let X be a projective scheme of dimension r over a field k, the arithmetic genus ${\displaystyle p_a}$ of X is defined as$${\displaystyle p_a(X)=(-1{)}^r(\chi ({{𝒪}}_X)-1).}$$Here ${\displaystyle \chi ({{𝒪}}_X)}$ is the Euler characteristic of the structure sheaf ${\displaystyle {{𝒪}}_X}$.^[1]

The arithmetic genus of a complex projective manifold of dimension n can be defined as a combination of Hodge numbers, namely

${\displaystyle p_a={\displaystyle \sum _{j=0}^{n-1}}(-1{)}^j{h}^{n-j,0}.}$

When n=1, the formula becomes ${\displaystyle p_a=h^{1,0}}$. According to the Hodge theorem, ${\displaystyle h^{0,1}=h^{1,0}}$. Consequently ${\displaystyle h^{0,1}=h^1(X)/2=g}$, where g is the usual (topological) meaning of genus of a surface, so the definitions are compatible.

When X is a compact Kähler manifold, applying h^p,q = h^q,p recovers the earlier definition for projective varieties.

By using h^p,q = h^q,p for compact Kähler manifolds this can be reformulated as the Euler characteristic in coherent cohomology for the structure sheaf ${\displaystyle {{𝒪}}_M}$:

${\displaystyle p_a=(-1{)}^n(\chi ({{𝒪}}_M)-1).}$

This definition therefore can be applied to some other locally ringed spaces.

• Genus (mathematics)
• Geometric genus

• P. Griffiths; J. Harris (1994). Principles of Algebraic Geometry. Wiley Classics Library (2nd ed.). Wiley Interscience. p. 494. ISBN 0-471-05059-8. 
• Rubei, Elena (2014), Algebraic Geometry, a concise dictionary, Berlin/Boston: Walter De Gruyter, ISBN 978-3-11-031622-3 

• Hirzebruch, Friedrich (1995) [1978]. Topological methods in algebraic geometry. Classics in Mathematics. Translation from the German and appendix one by R. L. E. Schwarzenberger. Appendix two by A. Borel (Reprint of the 2nd, corr. print. of the 3rd ed.). Berlin: Springer-Verlag. ISBN 3-540-58663-6. 

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