sl2-Structures on \({\mathcal{G}}_{\Gamma }\)

The construction of sl 2-structure in the previous section could have been done for any locally free sheaf of graded modules equipped with a compatible graded action of the sheaf of graded Lie algebras \(\boldsymbol{\mathcal{G}}_{\Gamma }\) , where the gr

PDF / 168,590 Bytes
10 Pages / 439.36 x 666.15 pts Page_size
37 Downloads / 170 Views

DOWNLOAD

REPORT

sl2-Structures on G

The construction of sl2 -structure in the previous section could have been done for any locally free sheaf of graded modules equipped with a compatible graded action of the sheaf of graded Lie algebras G , where the grading on G is as described in 4.3, (4.72). We have chosen to do it for the sheaf FQ 0 , rather than to give a functorial treatment, since this sheaf arises naturally, it comes with the natural graded action of G and this action is closely tied with the geometry of X . However, there is another natural choice—the sheaf of graded Lie algebras G itself, equipped with the adjoint action. This object is “principal” in the category of graded sheaves of modules with graded G -action in a sense that all other objects in this category as well as their sl2 -structures are representations of this one. Thus it is important to have a good description of sl2 -structures on G . This is the subject of the present section. We begin by recall the grading G D

lM 1 i D.l 1/

Gi

(7.1)

introduced in 4.3, (4.72). Remark 7.1. This grading can be viewed as twisted orthogonal decomposition of G in the following sense. The sheaf G can be equipped with the quadratic form determined by the fibrewise Killing form. We will call it the Killing form of G . With respect to this j form the summands G i and G are orthogonal, unless j D i . In this, latter case, the Killing form induces a non-degenerate pairing G i G i ! OJM :

I. Reider, Nonabelian Jacobian of Projective Surfaces, Lecture Notes in Mathematics 2072, DOI 10.1007/978-3-642-35662-9 7, © Springer-Verlag Berlin Heidelberg 2013

(7.2)

113

7 sl2 -Structures on G

114

Next recall that G carries an involution ./ W G ! G

(7.3)

defined by taking the adjoint x of a local section x of G . This involution interchanges the summands in (7.1) of opposite sign, i.e. one has .G i / D G i ;

(7.4)

for every i 2 f.l 1/; : : : ; .l 1/g. Thus the decomposition (7.1) is orthogonal, up to the twist by the involution ./ . Our construction of a natural (positive) sl2 -structure on G follows the same steps as the considerations in 6.2. We begin by taking the pullback G of the sheaf G via the natural projection in (6.16). As it was pointed out in 6.2, the sheaf G comes together with the tautological section d˘C . Then we go further by lifting G from JM to h0 .d C /, the scheme defined in (6.22). The sheaf . C / G [see (6.24), for the definition of C ] continues to have the twisted orthogonal decomposition . C / G D

lM 1 i D.l 1/

. C / G i :

(7.5)

But in addition, it is equipped with the “universal” sl2 -triple fs C ; s 0 ; s g, where the sections s ˙ ; s 0 are defined in (6.25). Observe that these sections are the sections of the summands . C / G ˙1 and . C / G 0 respectively. We consider the decomposition of . C / G under the adjoint action of this sl2 -triple. The operator ad.s 0 / acts semisimply and gives the decomposition C

. / G D

2 .l 1/

M

Data Loading...

sl2-Structures on \({\mathcal{G}}_{\Gamma }\)

Recommend Documents

On the Methods of Science on Earth and on Dunatopia

Pattern Formation on Silicon-on-Insulator

On Kant and Husserl on transcendental logic

On almost complex structures on tangent bundles

Research on Mouse Design Based on Ergonomics

On Sugawara construction on celestial sphere

On curves on K3 surfaces: III

Pattern Formation on Silicon-on-Insulator

On Landing on the Planet Dunatopia

Pattern Formation on Silicon-on-Insulator

Adsorption on epitaxial graphene on SiC(0001)

On Cups