Skolem–Noether theorem

In ring theory, a branch of mathematics, the Skolem–Noether theorem characterizes the automorphisms of simple rings. It is a fundamental result in the theory of central simple algebras.

The theorem was first published by Thoralf Skolem in 1927 in his paper Zur Theorie der assoziativen Zahlensysteme (German: On the theory of associative number systems) and later rediscovered by Emmy Noether.

Statement

In a general formulation, let A and B be simple unitary rings, and let k be the centre of B. Notice that k is a field since given x nonzero in k, the simplicity of B implies that the nonzero two-sided ideal BxB = (x) is the whole of B, and hence that x is a unit. Suppose further that the dimension of B over k is finite, i.e. that B is a central simple algebra of finite dimension. Then given k-algebra homomorphisms

f, g : A → B,

there exists a unit b in B such that for all a in A^[1]^[2]

g(a) = b · f(a) · b⁻¹.

In particular, every automorphism of a central simple k-algebra is an inner automorphism.^[3]^[4]

Proof

First suppose $B = \operatorname{M}_n(k) = \operatorname{End}_k(k^n)$ . Then f and g define the actions of A on $k^n$ ; let $V_f, V_g$ denote the A-modules thus obtained. Any two simple A-modules are isomorphic and $V_f, V_g$ are finite direct sums of simple A-modules. Since they have the same dimension, it follows that there is an isomorphism of A-modules $b: V_g \to V_f$ . But such b must be an element of $\operatorname{M}_n(k) = B$ . For the general case, note that $B \otimes B^{\text{op}}$ is a matrix algebra and thus by the first part this algebra has an element b such that

(f \otimes 1)(a \otimes z) = b (g \otimes 1)(a \otimes z) b^{-1}

for all $a \in A$ and $z \in B^{\text{op}}$ . Taking $a = 1$ , we find

1 \otimes z = b (1\otimes z) b^{-1}

for all z. That is to say, b is in $Z_{B \otimes B^{\text{op}}}(k \otimes B^{\text{op}}) = B \otimes k$ and so we can write $b = b' \otimes 1$ . Taking $z = 1$ this time we find

f(a)= b' g(a) {b'^{-1}}

which is what was sought.

Notes

↑ Lorenz (2008) p.173
↑ Farb, Benson; Dennis, R. Keith (1993). Noncommutative Algebra. Springer. ISBN 9780387940571.
↑ Gille & Szamuely (2006) p.40
↑ Lorenz (2008) p.174

References

Skolem, Thoralf (1927). "Zur Theorie der assoziativen Zahlensysteme". Skrifter Oslo (in German) (12): 50. JFM 54.0154.02.
A discussion in Chapter IV of Milne, class field theory
Gille, Philippe; Szamuely, Tamás (2006). Central simple algebras and Galois cohomology. Cambridge Studies in Advanced Mathematics 101. Cambridge: Cambridge University Press. ISBN 0-521-86103-9. Zbl 1137.12001.
Lorenz, Falko (2008). Algebra. Volume II: Fields with Structure, Algebras and Advanced Topics. Springer. ISBN 978-0-387-72487-4. Zbl 1130.12001.

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