Linear Lie algebra

In algebra, a linear Lie algebra is a subalgebra \mathfrak{g} of the Lie algebra \mathfrak{gl}(V) consisting of endomorphisms of a vector space V. In other words, a linear Lie algebra is the image of a Lie algebra representation.

Any Lie algebra is a linear Lie algebra in the sense that there is always a faithful representation of \mathfrak{g} (in fact, on a finite-dimensional vector space by Ado's theorem if \mathfrak{g} is itself finite-dimensional.)

Let V be a finite-dimensional vector space over a field of characteristic zero and \mathfrak{g} a subalgebra of \mathfrak{gl}(V). Then V is semisimple as a module over \mathfrak{g} if and only if (i) it is a direct sum of the center and a semisimple ideal and (ii) the elements of the center are diagonalizable (over some extension field).[1]

Notes

  1. Jacobson 1962, Ch III, Theorem 10

References

This article is issued from Wikipedia - version of the Saturday, August 10, 2013. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.