The absolute Galois group of the real numbers is a cyclic group of order 2 generated by complex conjugation, since C is the separable closure of R and [C:R] = 2.

In mathematics, the absolute Galois group GK of a field K is the Galois group of Ksep over K, where Ksep is a separable closure of K. Alternatively it is the group of all automorphisms of the algebraic closure of K that fix K. The absolute Galois group is well-defined up to inner automorphism. It is a profinite group.

(When K is a perfect field, Ksep is the same as an algebraic closure Kalg of K. This holds e.g. for K of characteristic zero, or K a finite field.)

Examples

[1]

(For the notation, see Inverse limit.)

The Frobenius automorphism Fr is a canonical (topological) generator of GK. (Recall that Fr(x) = xq for all x in Kalg, where q is the number of elements in K.)

Problems

Some general results

References

  1. ^ Szamuely 2009, p. 14.
  2. ^ Douady 1964
  3. ^ Harbater 1995
  4. ^ Pop 1995
  5. ^ Haran & Jarden 2000
  6. ^ Jannsen & Wingberg 1982
  7. ^ Neukirch, Schmidt & Wingberg 2000, theorem 7.5.10
  8. ^ Neukirch, Schmidt & Wingberg 2000, §VII.5
  9. ^ "qtr" (PDF). Retrieved 2019-09-04.
  10. ^ Neukirch, Schmidt & Wingberg 2000, p. 449.
  11. ^ Mináč & Tân (2016) pp.255,284
  12. ^ Harpaz & Wittenberg (2023) pp.1,41
  13. ^ Fried & Jarden (2008) p.12
  14. ^ Fried & Jarden (2008) pp.208,545

Sources