Content-Length: 119039 | pFad | http://en.m.wikipedia.org/wiki/Diller%E2%80%93Dress_theorem

Pythagorean field - Wikipedia

In algebra, a Pythagorean field is a field in which every sum of two squares is a square: equivalently it has a Pythagoras number equal to 1. A Pythagorean extension of a field is an extension obtained by adjoining an element for some in . So a Pythagorean field is one closed under taking Pythagorean extensions. For any field there is a minimal Pythagorean field containing it, unique up to isomorphism, called its Pythagorean closure.[1] The Hilbert field is the minimal ordered Pythagorean field.[2]

Properties

edit

Every Euclidean field (an ordered field in which all non-negative elements are squares) is an ordered Pythagorean field, but the converse does not hold.[3] A quadratically closed field is Pythagorean field but not conversely (  is Pythagorean); however, a non formally real Pythagorean field is quadratically closed.[4]

The Witt ring of a Pythagorean field is of order 2 if the field is not formally real, and torsion-free otherwise.[1] For a field   there is an exact sequence involving the Witt rings

 

where   is the fundamental ideal of the Witt ring of  [5] and   denotes its torsion subgroup (which is just the nilradical of  ).[6]

Equivalent conditions

edit

The following conditions on a field F are equivalent to F being Pythagorean:

Models of geometry

edit

Pythagorean fields can be used to construct models for some of Hilbert's axioms for geometry (Iyanaga & Kawada 1980, 163 C). The coordinate geometry given by   for   a Pythagorean field satisfies many of Hilbert's axioms, such as the incidence axioms, the congruence axioms and the axioms of parallels. However, in general this geometry need not satisfy all Hilbert's axioms unless the field F has extra properties: for example, if the field is also ordered then the geometry will satisfy Hilbert's ordering axioms, and if the field is also complete the geometry will satisfy Hilbert's completeness axiom.

The Pythagorean closure of a non-archimedean ordered field, such as the Pythagorean closure of the field of rational functions   in one variable over the rational numbers   can be used to construct non-archimedean geometries that satisfy many of Hilbert's axioms but not his axiom of completeness.[10] Dehn used such a field to construct two Dehn planes, examples of non-Legendrian geometry and semi-Euclidean geometry respectively, in which there are many lines though a point not intersecting a given line but where the sum of the angles of a triangle is at least π.[11]

Diller–Dress theorem

edit

This theorem states that if E/F is a finite field extension, and E is Pythagorean, then so is F.[12] As a consequence, no algebraic number field is Pythagorean, since all such fields are finite over Q, which is not Pythagorean.[13]

Superpythagorean fields

edit

A superpythagorean field F is a formally real field with the property that if S is a subgroup of index 2 in F and does not contain −1, then S defines an ordering on F. An equivalent definition is that F is a formally real field in which the set of squares forms a fan. A superpythagorean field is necessarily Pythagorean.[12]

The analogue of the Diller–Dress theorem holds: if E/F is a finite extension and E is superpythagorean then so is F.[14] In the opposite direction, if F is superpythagorean and E is a formally real field containing F and contained in the quadratic closure of F then E is superpythagorean.[15]

Notes

edit
  1. ^ a b Milnor & Husemoller (1973) p. 71
  2. ^ Greenberg (2010)
  3. ^ Martin (1998) p. 89
  4. ^ Rajwade (1993) p.230
  5. ^ Milnor & Husemoller (1973) p. 66
  6. ^ Milnor & Husemoller (1973) p. 72
  7. ^ Lam (2005) p.410
  8. ^ Lam (2005) p.293
  9. ^ Efrat (2005) p.178
  10. ^ (Iyanaga & Kawada 1980, 163 D)
  11. ^ Dehn (1900)
  12. ^ a b Lam (1983) p.45
  13. ^ Lam (2005) p.269
  14. ^ Lam (1983) p.47
  15. ^ Lam (1983) p.48

References

edit








ApplySandwichStrip

pFad - (p)hone/(F)rame/(a)nonymizer/(d)eclutterfier!      Saves Data!


--- a PPN by Garber Painting Akron. With Image Size Reduction included!

Fetched URL: http://en.m.wikipedia.org/wiki/Diller%E2%80%93Dress_theorem

Alternative Proxies:

Alternative Proxy

pFad Proxy

pFad v3 Proxy

pFad v4 Proxy