Leonid Bedratyuk, Anatolii Petravchuk, Evhen Chapovskyi
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引用次数: 0
摘要
设𝕂 是特征为零的代数闭域,设 𝕂[x1,...,xn]是多项式代数,设 Wn(𝕂) 是 𝕂[x1,...,xn]上所有 𝕂 派生的李代数。对于任何具有线性成分的导数 D,我们描述了 D 在 Wn(𝕂)中的中心子,并提出了一种算法,用于在 D 是基本魏岑伯克导数的情况下,将该中心子视为导数 D 的常量环上的模块,从而找到该中心子的生成子。在更一般的情况下,即考虑的是域𝕂上的有限生成积分域 A,而不是多项式代数𝕂[x1,...,xn],并且 D 是 A 上的局部零势导数,我们证明 D 在 A 上所有𝕂导数的李代数 DerA 中的中心子 CDerA(D) 是 Der A 的 "大 "子代数。具体地说,CDerA(D) 在 A 上的秩等于分数域 Frac(A) 在𝕂 上的超越度。
Centralizers of Linear and Locally Nilpotent Derivations
Let 𝕂 be an algebraically closed field of characteristic zero, let 𝕂[x1,…,xn] be the polynomial algebra, and let Wn(𝕂) be the Lie algebra of all 𝕂-derivations on 𝕂[x1,…,xn]. For any derivation D with linear components, we describe the centralizer of D in Wn(𝕂) and propose an algorithm for finding the generators of this centralizer regarded as a module over the ring of constants of the derivation D in the case where D is a basic Weitzenböck derivation. In a more general case where a finitely generated integral domain A over the field 𝕂 is considered instead of the polynomial algebra 𝕂[x1,…,xn] and D is a locally nilpotent derivation on A, we prove that the centralizer CDerA(D) of D in the Lie algebra DerA of all 𝕂-derivations on A is a “large” subalgebra of Der A. Specifically, the rank of CDerA(D) over A is equal to the transcendence degree of the field of fractions Frac(A) over the field 𝕂.
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