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Weyl AlgebraIn abstract algebra, the Weyl algebra is the ring of differential operators with polynomial coefficients (in one variable), -
f_n(X) \partial_X^n + \cdots + f_1(X) \partial_X + f_0(X). More precisely, let F be a field, and let FX be the ring of polynomials in one variable, X, with coefficients in F. Then each fi lies in FX. ∂X is the derivative with respect to X. The algebra is generated by X and ∂X. The Weyl algebra is an example of a simple ring that is not a matrix ring over a division ring. It is also a noncommutative example of a domain, and an example of an Ore extension. You can also construct the Weyl algebra as a quotient of the free algebra on two generators, X and Y, by the ideal generated by the single relation - YX − XY − 1.
The Weyl algebra is the first in an infinite family of algebras, also known as Weyl algebras. The n-th Weyl algebra, An, is the ring of differential operators with polynomial coefficients in several variables. It is generated by Xi and ∂Xi. Weyl algebras are named after Hermann Weyl, who introduced them to study the Heisenberg uncertainty principle in quantum mechanics. It is a quotient of the universal enveloping algebra of the Lie algebra of the Heisenberg group.
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