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Linear projections and successive minima

Published online by Cambridge University Press:  11 January 2016

Christophe Soulé*
Affiliation:
Institut des Hautes Études Scientifiques, 35 Route de Chartres, 91440 Bures-sur-Yvette, [email protected]
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Abstract

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Let X be an arithmetic surface, and let L be a line bundle on X. Choose a metric h on the lattice Λ of sections of L over X. When the degree of the generic fiber of X is large enough, we get lower bounds for the successive minima of (Λ,h) in terms of the normalized height of X. The proof uses an effective version (due to C. Voisin) of a theorem of Segre on linear projections and Morrison’s proof that smooth projective curves of high degree are Chow semistable.

Keywords

Type
Research Article
Copyright
Copyright © Editorial Board of Nagoya Mathematical Journal 2010

References

[1] Arbarello, E., Cornalba, M., Griffiths, P. A., and Harris, J., Geometry of Algebraic Curves, I, Grundlehren Math. Wiss. 267, Springer, New York, 1985.Google Scholar
[2] Bost, J.-B., Gillet, H., and Soulé, C., Heights of projective varieties and positive Green forms, J. Am. Math. Soc., 7 (1994), 9031027.Google Scholar
[3] Bost, J.-B., Intrinsic heights of stable varieties and abelian varieties, Duke Math. J., 82 (1996), 2170.CrossRefGoogle Scholar
[4] Bombieri, E. and Vaaler, J., On Siegel’s lemma, Invent. Math., 73 (1983), 1132.Google Scholar
[5] Calabri, A. and Ciliberto, C., On special projections of varieties: Epitome to a theorem of Beniamino Segre, Adv. Geom., 1 (2001), 97106.Google Scholar
[6] Faltings, G., Calculus on arithmetic surfaces, Ann. of Math., 119 (1984), 387424.Google Scholar
[7] Fulton, W., Intersection Theory, 2nd ed., Ergeb. Math. Grenzgeb. (3), 2, Springer, Berlin, 1998.Google Scholar
[8] Gieseker, D., Global moduli for surfaces of general type, Invent. Math., 43 (1977), 233282.Google Scholar
[9] Gillet, H. and Soulé, C., An arithmetic Riemann-Roch theorem, Invent. Math., 110 (1992), 473543.Google Scholar
[10] Hartshorne, R., Algebraic Geometry, corr. 3rd printing, Grad. Texts Math. 52, Springer, New York, 1983.Google Scholar
[11] Morrison, I., Projective stability of ruled surfaces, Invent. Math., 56 (1980), 269304.CrossRefGoogle Scholar
[12] Mumford, D., Stability of projective varieties, Enseign. Math. (2), 23 (1977), 39110.Google Scholar
[13] Soulé, C., Successive minima on arithmetic varieties, Compos. Math., 96 (1995), 8598.Google Scholar