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Nagao's theorem

From Wikipedia, the free encyclopedia

In mathematics, Nagao's theorem, named after Hirosi Nagao, is a result about the structure of the group of 2-by-2 invertible matrices over the ring of polynomials over a field. It has been extended by Serre to give a description of the structure of the corresponding matrix group over the coordinate ring of a projective curve.

Nagao's theorem

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For a general ring R we let GL2(R) denote the group of invertible 2-by-2 matrices with entries in R, and let R* denote the group of units of R, and let

Then B(R) is a subgroup of GL2(R).

Nagao's theorem states that in the case that R is the ring K[t] of polynomials in one variable over a field K, the group GL2(R) is the amalgamated product of GL2(K) and B(K[t]) over their intersection B(K).

Serre's extension

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In this setting, C is a smooth projective curve C over a field K. For a closed point P of C let R be the corresponding coordinate ring of C with P removed. There exists a graph of groups (G,T) where T is a tree with at most one non-terminal vertex, such that GL2(R) is isomorphic to the fundamental group π1(G,T).

References

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  • Mason, A. (2001). "Serre's generalization of Nagao's theorem: an elementary approach". Transactions of the American Mathematical Society. 353 (2): 749–767. doi:10.1090/S0002-9947-00-02707-0. Zbl 0964.20027.
  • Nagao, Hirosi (1959). "On GL(2, K[x])". J. Inst. Polytechn., Osaka City Univ., Ser. A. 10: 117–121. MR 0114866. Zbl 0092.02504.
  • Serre, Jean-Pierre (2003). Trees. Springer. ISBN 3-540-44237-5.