On Characteristic Classes of Determinantal Cremona Transformations

Gonzalez-Sprinberg, Gerard; Pan, Ivan

doi:10.1007/s00208-006-0764-5

Cited by 13 publications

(7 citation statements)

References 16 publications

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“…Even if it might seem a bit artificial (since the results about the standard Cremona maps are well known, in particular its projective degrees, and computable by other means, see [GSP06]), we illustrate an application of Proposition 1 in the example of the standard Cremona maps…”

Section: Free Resolutions Of the Graph Of Glued Determinantal Mapsmentioning

confidence: 99%

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Gluing determinantal Cremona maps

Bignalet-Cazalet

2021

Preprint

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Section: Free Resolutions Of the Graph Of Glued Determinantal Mapsmentioning

confidence: 99%

“…Our guiding remark is that the so-called standard Cremona map (see [GSP06] for more references about the standard Cremona maps)…”

Section: Introductionmentioning

confidence: 99%

Gluing determinantal Cremona maps

Bignalet-Cazalet

2021

Preprint

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“…For higher dimension there has also been a lot of research on the subject [21][22][23][24][25][26][27][28], though the results obtained remain sporadic and, in general, there are no substantial advances with respect to the pioneering works in the knowledge either about the structure of arbitrary Cremona transformations themselves or about the structure of the group of Cremona transformations, even for n = 3. The results presented here attempt to open several ways that can be used to provide significant results concerning Cremona transformations for n ≥ 3 (see Section 4).…”

Section: Introductionmentioning

confidence: 99%

A connection between birational automorphisms of the plane and linear systems of curves

Pérez–Díaz

Blasco

2015

Journal of Computational and Applied Mathematics

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a b s t r a c tIn this paper, we prove that there exists a one-to-one correspondence between birational automorphisms of the plane and pairs of pencils of curves intersecting in a unique point. As a consequence, we show how to construct birational automorphisms of the plane of a certain degree d (fixed in advance) from some curves generating two linear systems of curves of degrees d and  d, where  d = d − 2 for d > 2, and  d = 1 otherwise. In addition, we also get the inverse of the birational automorphism constructed, and we show that its degree is obtained from the degree of the linear system of curves. As a special case, we show how these results can be stated to polynomial birational automorphisms of the plane.

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“…For n = 3, this map is called a tetrahedral transformation and written T tet in [14, p. 301, §14] or the standard cubo-cubic transformation of space [29, p. 179] or a (3,3)-transformation [1, p. 2071-2072, 2108], as its degree and the degree of its inverse are three (but of course this map is not the only one having these properties). Nowadays, the usual terminology is to call σ n , in any dimension n, the standard Cremona transformation (see for instance [12], [13], [21, p. 72], [8], [6]). The map σ n restricts to an automorphism of the standard torus T ⊂ P n k and contracts the n + 1 coordinate hyperplanes, i.e.…”

Section: Introductionmentioning

confidence: 99%

The group of Cremona transformations generated by linear maps and the standard involution

Blanc¹,

Hedén²

2015

Ann. inst. Fourier

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This article studies the group generated by automorphisms of the projective space of dimension n and by the standard birational involution of degree n. Every element of this group only contracts rational hypersurfaces, but in odd dimension, there are simple elements having this property which do not belong to the group. Geometric properties of the elements of the group are given, as well as a description of its intersection with monomial transformations.

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On Characteristic Classes of Determinantal Cremona Transformations

Abstract: Abstract. We compute the multidegrees and the Segre numbers of general determinantal Cremona transformations, with generically reduced base scheme, by specializing to the standard Cremona transformation and computing its Segre class via mixed volumes of rational polytopes.

Cited by 13 publications

References 16 publications

Gluing determinantal Cremona maps

Gluing determinantal Cremona maps

A connection between birational automorphisms of the plane and linear systems of curves

The group of Cremona transformations generated by linear maps and the standard involution

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