In mathematics, Lüroth's theorem asserts that every field that lies between a field K and the rational function field K(X) must be generated as an extension of K by a single element of K(X). This result is named after Jacob Lüroth, who proved it in 1876.[1]

Statement

Let be a field and be an intermediate field between and , for some indeterminate X. Then there exists a rational function such that . In other words, every intermediate extension between and is a simple extension.

Proofs

The proof of Lüroth's theorem can be derived easily from the theory of rational curves, using the geometric genus.[2] This method is non-elementary, but several short proofs using only the basics of field theory have long been known, mainly using the concept of transcendence degree.[3] Many of these simple proofs use Gauss's lemma on primitive polynomials as a main step.[4]

References

  1. Burau, Werner (2008), "Lueroth (or Lüroth), Jakob", Complete Dictionary of Scientific Biography
  2. Cohn, P. M. (1991), Algebraic Numbers and Algebraic Functions, Chapman Hall/CRC Mathematics Series, vol. 4, CRC Press, p. 148, ISBN 9780412361906.
  3. Lang, Serge (2002). "Ch VIII.1 Transcendence bases". Algebra. Graduate Texts in Mathematics. Vol. 211 (3rd ed.). New York, NY: Springer New York. p. 355. doi:10.1007/978-1-4613-0041-0. ISBN 978-1-4612-6551-1.
  4. E.g. see this document, or Mines, Ray; Richman, Fred (1988), A Course in Constructive Algebra, Universitext, Springer, p. 148, ISBN 9780387966403.
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