Abstract.
This paper contains two theorems concerning the theory of maximal Cohen–Macaulay modules. The first theorem proves that certain Ext groups between maximal Cohen–Macaulay modules M and N must have finite length, provided only finitely many isomorphism classes of maximal Cohen–Macaulay modules exist having ranks up to the sum of the ranks of M and N. This has several corollaries. In particular it proves that a Cohen–Macaulay lo cal ring of finite Cohen–Macaulay type has an isolated singularity. A well-known theorem of Auslander gives the same conclusion but requires that the ring be Henselian. Other corollaries of our result include statements concerning when a ring is Gorenstein or a complete intersection on the punctured spectrum, and the recent theorem of Leuschke and Wiegand that the completion of an excellent Cohen–Macaulay local ring of finite Cohen–Macaulay type is again of finite Cohen–Macaulay type . The second theorem proves that a complete local Gorenstein domain of positive characteristic p and dimension d is F-rational if and only if the number of copies of R splitting out of \(R^{1/p^e}\) divided by \(p^{de}\) has a positive limit. This result relates to work of Smith and Van den Bergh. We call this limit the F-signature of the ring and give some of its properties.
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Received: 6 May 2001 / Published online: 6 August 2002
Both authors were partially supported by the National Science Foundation. The second author was also partially supported by the Clay Mathematics Institute.
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Huneke, C., Leuschke, G. Two theorems about maximal Cohen–Macaulay modules . Math Ann 324, 391–404 (2002). https://doi.org/10.1007/s00208-002-0343-3
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DOI: https://doi.org/10.1007/s00208-002-0343-3