Given a polynomial ring R = k[X1, ... Xn] where k is some field, an Artinian ideal is an idealI in R for which the Krull dimension of the quotient ring R/I is 0. Also, less precisely, one can think of an Artinian ideal as one that has at least each indeterminate in R raised to a power greater than 0 as a generator.
If an ideal is not Artinian, one can take the Artinian closure of it as follows. First, take the least common multiple of the generators of the ideal. Second, add to the generating set of the ideal each indeterminate of the LCM with its power increased by 1 if the power is not 0 to begin with. An example is below.
ExamplesEdit
Let , and let and . Here, and are Artinian ideals, but is not because in , the indeterminate does not appear alone to a power as a generator.
To take the Artinian closure of , , we find the LCM of the generators of , which is . Then, we add the generators , and to , and reduce. Thus, we have which is Artinian.
artinian, ideal, abstract, algebra, named, after, emil, artin, encountered, ring, theory, particular, with, polynomial, rings, given, polynomial, ring, where, some, field, ideal, which, krull, dimension, quotient, ring, also, less, precisely, think, that, leas. In abstract algebra an Artinian ideal named after Emil Artin is encountered in ring theory in particular with polynomial rings Given a polynomial ring R k X1 Xn where k is some field an Artinian ideal is an ideal I in R for which the Krull dimension of the quotient ring R I is 0 Also less precisely one can think of an Artinian ideal as one that has at least each indeterminate in R raised to a power greater than 0 as a generator If an ideal is not Artinian one can take the Artinian closure of it as follows First take the least common multiple of the generators of the ideal Second add to the generating set of the ideal each indeterminate of the LCM with its power increased by 1 if the power is not 0 to begin with An example is below Examples EditLet R k x y z displaystyle R k x y z and let I x 2 y 5 z 4 J x 3 y 2 z 6 x 2 y z 4 y z 3 displaystyle I x 2 y 5 z 4 J x 3 y 2 z 6 x 2 yz 4 yz 3 and K x 3 y 4 x 2 z 7 displaystyle displaystyle K x 3 y 4 x 2 z 7 Here I displaystyle displaystyle I and J displaystyle displaystyle J are Artinian ideals but K displaystyle displaystyle K is not because in K displaystyle displaystyle K the indeterminate z displaystyle displaystyle z does not appear alone to a power as a generator To take the Artinian closure of K displaystyle displaystyle K K displaystyle displaystyle hat K we find the LCM of the generators of K displaystyle displaystyle K which is x 3 y 4 z 7 displaystyle displaystyle x 3 y 4 z 7 Then we add the generators x 4 y 5 displaystyle displaystyle x 4 y 5 and z 8 displaystyle displaystyle z 8 to K displaystyle displaystyle K and reduce Thus we have K x 3 y 4 z 8 x 2 z 7 displaystyle displaystyle hat K x 3 y 4 z 8 x 2 z 7 which is Artinian References EditSaenz de Cabezon Irigaray Eduardo 2008 Combinatorial Koszul Homology Computations and Applications arXiv 0803 0421 This commutative algebra related article is a stub You can help Wikipedia by expanding it vte Retrieved from https en wikipedia org w index php title Artinian ideal amp oldid 1170048752, wikipedia, wiki, book, books, library,
