Forster–Swan theorem
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The Forster–Swan theorem is a result from commutative algebra that states an upper bound for the minimal number of generators of a finitely generated module over a commutative Noetherian ring. The usefulness of the theorem stems from the fact, that in order to form the bound, one only need the minimum number of generators of all localizations .
The theorem was proven in a more restrictive form in 1964 by Otto Forster[1] and then in 1967 generalized by Richard G. Swan[2] to its modern form.
Forster–Swan theorem
[edit]Let
- be a commutative Noetherian ring with one,
- be a finitely generated -module,
- a prime ideal of .
- are the minimal die number of generators to generated the -module respectively the -module .
According to Nakayama's lemma, in order to compute one can compute the dimension of over the field , i.e.
Statement
[edit]Define the local -bound
then the following holds[3]
Bibliography
[edit]- Rao, R.A.; Ischebeck, F. (2005). Ideals and Reality: Projective Modules and Number of Generators of Ideals. Deutschland: Physica-Verlag.
- Swan, Richard G. (1967). "The number of generators of a module". Math. Mathematische Zeitschrift. 102 (4): 318–322. doi:10.1007/BF01110912.
References
[edit]- ^ Forster, Otto (1964). "Über die Anzahl der Erzeugenden eines Ideals in einem Noetherschen Ring". Mathematische Zeitschrift. 84: 80–87. doi:10.1007/BF01112211.
- ^ Swan, Richard G. (1967). "The number of generators of a module". Math. Mathematische Zeitschrift. 102 (4): 318–322. doi:10.1007/BF01110912.
- ^ R. A. Rao und F. Ischebeck (2005), Physica-Verlag (ed.), Ideals and Reality: Projective Modules and Number of Generators of Ideals, Deutschland, p. 221
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