Koecher–Vinberg theorem

In operator algebra, the Koecher–Vinberg theorem is a reconstruction theorem for real Jordan algebras. It was proved independently by Max Koecher in 1957[1] and Ernest Vinberg in 1961.[2] It provides a one-to-one correspondence between formally real Jordan algebras and so-called domains of positivity. Thus it links operator algebraic and convex order theoretic views on state spaces of physical systems.

Statement

A convex cone is called regular if whenever both and are in the closure .

A convex cone in a vector space with an inner product has a dual cone . The cone is called self-dual when . It is called homogeneous when to any two points there is a real linear transformation that restricts to a bijection and satisfies .

The Koecher–Vinberg theorem now states that these properties precisely characterize the positive cones of Jordan algebras.

Theorem: There is a one-to-one correspondence between formally real Jordan algebras and convex cones that are:

  • open;
  • regular;
  • homogeneous;
  • self-dual.

Convex cones satisfying these four properties are called domains of positivity or symmetric cones. The domain of positivity associated with a real Jordan algebra is the interior of the 'positive' cone .

Proof

For a proof, see Koecher (1999)[3] or Faraut & Koranyi (1994).[4]

References

  1. Koecher, Max (1957). "Positivitatsbereiche im Rn". American Journal of Mathematics. 97 (3): 575–596. doi:10.2307/2372563.
  2. Vinberg, E. B. (1961). "Homogeneous Cones". Soviet Math. Dokl. 1: 787–790.
  3. Koecher, Max (1999). The Minnesota Notes on Jordan Algebras and Their Applications. Springer. ISBN 3-540-66360-6.CS1 maint: ref=harv (link)
  4. Faraut, J.; Koranyi, A. (1994). Analysis on Symmetric Cones. Oxford University Press.CS1 maint: ref=harv (link)
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