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Embedding problem

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In Galois theory, a branch of mathematics, the embedding problem is a generalization of the inverse Galois problem. Roughly speaking, it asks whether a given Galois extension can be embedded into a Galois extension in such a way that the restriction map between the corresponding Galois groups is given.

Definition

Given a field K and a finite group H, one may pose the following question (the so called inverse Galois problem). Is there a Galois extension F/K with Galois group isomorphic to H. The embedding problem is a generalization of this problem:

Let L/K be a Galois extension with Galois group G and let f : H → G be an epimorphism. Is there a Galois extension F/K with Galois group H and an embedding α : L → F fixing K under which the restriction map from the Galois group of F/K to the Galois group of L/K coincides with f?

Analogously, an embedding problem for a profinite group F consists of the following data: Two profinite groups H and G and two continuous epimorphisms φ : F → G and f : H → G. The embedding problem is said to be finite if the group H is. A solution (sometimes also called weak solution) of such an embedding problem is a continuous homomorphism γ : FH such that φ = f γ. If the solution is surjective, it is called a proper solution.

Properties

Finite embedding problems characterize profinite groups. The following theorem gives an illustration for this principle.

Theorem. Let F be a countably (topologically) generated profinite group. Then

  1. F is projective if and only if any finite embedding problem for F is solvable.
  2. F is free of countable rank if and only if any finite embedding problem for F is properly solvable.

References

  • Luis Ribes, Introduction to Profinite groups and Galois cohomology (1970), Queen's Papers in Pure and Appl. Math., no. 24, Queen's university, Kingstone, Ont.
  • V. V. Ishkhanov, B. B. Lur'e, D. K. Faddeev, The embedding problem in Galois theory Translations of Mathematical Monographs, vol. 165, American Mathematical Society (1997).
  • Michael D. Fried and Moshe Jarden, Field arithmetic, second ed., revised and enlarged by Moshe Jarden, Ergebnisse der Mathematik (3) 11, Springer-Verlag, Heidelberg, 2005.
  • A. Ledet, Brauer type embedding problems Fields Institute Monographs, no. 21, (2005).
  • Vahid Shirbisheh, Galois embedding problems with abelian kernels of exponent p VDM Verlag Dr. Müller, ISBN 978-3-639-14067-5, (2009).
  • Almobaideen Wesam, Qatawneh Mohammad, Sleit Azzam, Salah Imad, Efficient mapping scheme of ring topology onto tree-hypercubes , Journal of Applied Sciences, 2007