中文

Exotic Differential Operators on Complex Minimal Nilpotent Orbits

q-alg 2007-05-23 v2 量子代数

摘要

Let O be the minimal nilpotent adjoint orbit in a classical complex semisimple Lie algebra g. O is a smooth quasi-affine variety stable under the Euler dilation action CC^* on g. The algebra of differential operators on O is D(O)=D(Cl(O)) where the closure Cl(O) is a singular cone in g. See \cite{jos} and \cite{bkHam} for some results on the geometry and quantization of O. We construct an explicit subspace A1D(O)A_{-1}\subset D(O) of commuting differential operators which are Euler homogeneous of degree -1. The space A1A_{-1} is finite-dimensional, g-stable and carries the adjoint representation. A1A_{-1} consists of (for gsp(2n,C)g \neq sp(2n,C)) non-obvious order 4 differential operators obtained by quantizing symbols we obtained previously. These operators are "exotic" in that there is (apparently) no geometric or algebraic theory which explains them. The algebra generated by A1A_{-1} is a maximal commutative subalgebra A of D(X). We find a G-equivariant algebra isomorphism R(O) to A, fDff\mapsto D_f, such that the formula (fg)=(constanttermofDgˉf)(f|g)=({constant term of}D_{\bar{g}} f) defines a positive-definite Hermitian inner product on R(O). We will use these operators DfD_f to quantize O in a subsequent paper.

关键词

引用

@article{arxiv.q-alg/9711023,
  title  = {Exotic Differential Operators on Complex Minimal Nilpotent Orbits},
  author = {A. Astashkevich and R. Brylinski},
  journal= {arXiv preprint arXiv:q-alg/9711023},
  year   = {2007}
}

备注

34 pages, corrected some typos, changed content