We study syzygies of the Segre embedding of P(V1) × · · · × P(Vn), and prove two finiteness results. First, for fixed p but varying n and Vi, there is a finite list of “master p-syzygies” from which all other p-syzygies can be derived by simple substitutions. Second, we define a power series fp with coefficients in something like the Schur algebra, which contains essentially all the information of p-syzygies of Segre embeddings (for all n and Vi), and show that it is a rational function. The list of master p-syzygies and the numerator and denominator of fp can be computed algorithmically (in theory). The central observation of this paper is that by considering all Segre embeddings at once (i.e., letting n and the Vi vary) certain structure on the space of p-syzygies emerges. We formalize this structure in the concept of a ∆-module. Many of our results on syzygies are specializations of general results on ∆-modules that we establish. Our theory also applies to certain other families of varieties, such as tangent and secant varieties of Segre embeddings.
[1]
Joe Harris,et al.
Representation Theory: A First Course
,
1991
.
[2]
A. Joyal.
Foncteurs analytiques et espèces de structures
,
1986
.
[3]
David Eisenbud,et al.
Initial Ideals, Veronese Subrings, and Rates of Algebras
,
1993
.
[4]
J. Landsberg,et al.
On tangential varieties of rational homogeneous varieties
,
2005,
math/0509388.
[5]
J. Weyman,et al.
Complexes associated with trace and evaluation. Another approach to Lascoux's resolution
,
1985
.
[6]
Claudiu Raicu.
The GSS Conjecture
,
2010
.
[7]
Resolutions of Segre embeddings of projective spaces of any dimension
,
2004,
math/0404417.
[8]
M. Barratt.
Twisted Lie algebras
,
1978
.
[9]
J. Landsberg,et al.
On the ideals and singularities of secant varieties of Segre varieties
,
2006,
math/0601452.
[10]
David Eisenbud,et al.
Roots of Commutative Algebra
,
1995
.