Weyl's theorem on complete reducibility

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In algebra, Weyl's theorem on complete reducibility is a fundamental result in the theory of Lie algebra representations. Let $\mathfrak{g}$ be a semisimple Lie algebra over a field of characteristic zero. The theorem states that every finite-dimensional module over $\mathfrak{g}$ is semisimple as a module (i.e., a direct sum of simple modules.)

The theorem is a consequence of Whitehead's lemma (see Weibel's homological algebra book). Weyl's original proof was analytic in nature: it famously used the unitarian trick. The usual algebraic proof makes use of the Casimir element of the universal enveloping algebra.^[1]

External links

A blog post by Akhil Mathew

References

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Jacobson, Nathan, Lie algebras, Republication of the 1962 original. Dover Publications, Inc., New York, 1979. ISBN 0-486-63832-4
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↑ Hall 2015 Section 10.3

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