Measuring coalgebra

A coalgebra C with a linear map from C×A to B is said to measure A to B if it preserves the algebra product and identity (in the coalgebra sense). If we think of the elements of C as linear maps from A to B, this means that c(a₁a₂) = Σc₁(a₁)c₂(a₂) where Σc₁⊗c₂ is the coproduct of c, and c multiplies identities by the counit of c. In particular if c is grouplike this just states that c is a homomorphism from A to B. A measuring coalgebra is a universal coalgebra that measures A to B in the sense that any coalgebra that measures A to B can be mapped to it in a unique natural way.

• The group-like elements of a measuring coalgebra from A to B are the homomorphisms from A to B.
• The primitive elements of a measuring coalgebra from A to B are the derivations from A to B.
• If A is the algebra of continuous real functions on a compact Hausdorff space X, and B is the real numbers, then the measuring coalgebra from A to B can be identified with finitely supported measures on X. This may be the origin of the term "measuring coalgebra".
• In the special case when A = B, the measuring coalgebra has a natural structure of a Hopf algebra, called the Hopf algebra of the algebra A.

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• Sweedler, Moss E. (1968), "The Hopf algebra of an algebra applied to field theory", J. Algebra, 8: 262–276, doi:10.1016/0021-8693(68)90059-8, MR 0222053
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