Universal C*-algebra

In mathematics, a universal C*-algebra is a C*-algebra described in terms of generators and relations. In contrast to rings or algebras, where one can consider quotients by free rings to construct universal objects, C*-algebras must be realizable as algebras of bounded operators on a Hilbert space by the Gelfand-Naimark-Segal construction and the relations must prescribe a uniform bound on the norm of each generator. This means that depending on the generators and relations, a universal C*-algebra may not exist. In particular, free C*-algebras do not exist.

C*-Algebra Relations

There are several problems with defining relations for C*-algebras. One is, as previously mentioned, due to the non-existence of free C*-algebras, not every relation defines a C*-algebra. Another problem is that one would often want to include order relations, formulas involving continuous functional calculus, and spectral data as relations. For that reason, we use a relatively roundabout way of defining C*-algebra relations. The basic motivation behind the following definitions is that we will define relations as the category of their representations.

Given a set X, the null C*-relation on X is the category with objects consisting of pairs (j, A), where A is a C*-algebra and j is a function from X to A and with morphisms from (j, A) to (k, B) consisting of *-homomorphisms φ from A to B satisfying φ ∘ j = k. A C*-relation on X is a full subcategory of satisfying:

  1. the unique function X to {0} is an object;
  2. given an injective *-homomorphism φ from A to B and a function f from X to A, if φ ∘ f is an object, then f is an object;
  3. given a *-homomorphism from A to B and a function f from X to A, if f is an object, then φ ∘ f is an object;
  4. if fi is an object for i=1,2,...,n, then is also an object. Furthermore, if fi is an object for i in an nonempty index set I implies the product is also an object, then the C*-relation is compact.

Given a C*-relation R on a set X. then a function ι from X to a C*-algebra U is called a universal representation for R if

  1. given a C*-algebra A and a *-homomorphism φ from U to A, φ ∘ ι is an object of R;
  2. given a C*-algebra A and an object (f, A) in R, there exists a unique *-homomorphism φ from U to A such that f = φ ∘ ι. Notice that ι and U are unique up to isomorphism and U is called the universal C*-algebra for R.

A C*-relation R has a universal representation if and only if R is compact.

Given a *-polynomial p on a set X, we can define a full subcategory of with objects (j, A) such that pj = 0. For convenience, we can call p a relation, and we can recover the classical concept of relations. Unfortunately, not every *-polynomial will define a compact C*-relation. [1]

Alternative Approach

Alternatively, one can use a more concrete characterization of universal C*-algebras that more closely resembles the construction in abstract algebra. Unfortunately, this restricts the types of relations that are possible. Given a set G, a relation on G is a set R consisting of pairs (p, η) where p is a *-polynomial on X and η is a non-negative real number. A representation of (G, R) on a Hilbert space H is a function ρ from X to the algebra of bounded operators on H such that for all (p, η) in R. The pair (G, R) is called admissible if a representation exists and the direct sum of representations is also a representation. Then

is finite and defines a seminorm satisfying the C*-norm condition on the free algebra on X. The completion of the quotient of the free algebra by the ideal is called the universal C*-algebra of (G,R). [2]

Examples

References

  1. Loring, Terry A. (1 September 2010). "C*-Algebra Relations". Mathematica Scandinavica. 107 (1): 43–72. ISSN 1903-1807. Retrieved 27 March 2017.
  2. 1 2 Blackadar, Bruce (1 December 1985). "Shape theory for $C^*$-algebras.". Mathematica Scandinavica. 56 (0): 249–275. ISSN 1903-1807. Retrieved 27 March 2017.
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