In this paper we present two algorithms: the first tests the projectivity of a smooth complete toric variety and the second determines the extremal classes of the Mori cone of a smooth projective toric variety. The crucial fact is that we are able to give a complete description of $\aunox$, determining a basis $B$ of $\aunox$ and the coordinates with respect to $B$ of any element of $\aunox$. The computational condition testing the projectivity is obtained by Kleiman's criterion of ampleness, while the condition determining the extremality of a class comes directly from the definition of a nonextremal class. The algorithms are used to study the Mori cone of Fano toric $n$-folds with dimension $n\leq 4$ and Picard number $\rho \geq 3$, computing all extremal rays of the Mori cone. Moreover, we describe a toric almost Fano variety of dimension $3$ and Picard number $35$ together with its Mori cone.

Publié le : 2009-05-15
Classification:  Toric varieties,  extremal classes,  projectivity,  algorithms,  14E30,  14M25,  13P10

@article{1243430531,
     author = {Scaramuzza, Anna},
     title = {Algorithms for Projectivity and Extremal Classes of a Smooth Toric Variety},
     journal = {Experiment. Math.},
     volume = {18},
     number = {1},
     year = {2009},
     pages = { 71-84},
     language = {en},
     url = {http://dml.mathdoc.fr/item/1243430531}
}

Scaramuzza, Anna. Algorithms for Projectivity and Extremal Classes of a Smooth Toric Variety. Experiment. Math., Tome 18 (2009) no. 1, pp.  71-84. http://gdmltest.u-ga.fr/item/1243430531/