English

New Generalized Verma Modules and Multilinear Intertwining Differential Operators

High Energy Physics - Theory 2015-06-26 v2 Mathematical Physics math.MP Quantum Algebra Representation Theory

Abstract

The present paper contains two interrelated developments. First, are proposed new generalized Verma modules. They are called k-Verma modules, k\in N, and coincide with the usual Verma modules for k=1. As a vector space a k-Verma module is isomorphic to the symmetric tensor product of k copies of the universal enveloping algebra U(g^-), where g^- is the subalgebra of lowering generators in the standard triangular decomposition of a simple Lie algebra g = g^+ \oplus h \oplus g^- . The second development is the proposal of a procedure for the construction of multilinear intertwining differential operators for semisimple Lie groups G . This procedure uses k-Verma modules and coincides for k=1 with a procedure for the construction of linear intertwining differential operators. For all k central role is played by the singular vectors of the k-Verma modules. Explicit formulae for series of such singular vectors are given. Using these are given explicitly many new examples of multilinear intertwining differential operators. In particular, for G = SL(2,R) are given explicitly all bilinear intertwining differential operators. Using the latter, as an application are constructed (n/2)-differentials for all n\in 2N, the ordinary Schwarzian being the case n=4. As another application, in a Note Added we propose a new hierarchy of nonlinear equations, the lowest member being the KdV equation.

Keywords

Cite

@article{arxiv.hep-th/0303179,
  title  = {New Generalized Verma Modules and Multilinear Intertwining Differential Operators},
  author = {V. K. Dobrev},
  journal= {arXiv preprint arXiv:hep-th/0303179},
  year   = {2015}
}

Comments

30 pages, plain TEX with harvmac; corrected misprints