A purely infinite Cuntz-like Banach \(\)-algebra with no purely infinite ultrapowers
We continue our investigation, from \cite{dh}, of the ring-theoretic infiniteness properties of ultrapowers of Banach algebras, studying in this paper the notion of being purely infinite. It is well known that a \(C^*\)-algebra is purely infinite if and only if any of its ultrapowers are. We find ex...
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| description | We continue our investigation, from \cite{dh}, of the ring-theoretic infiniteness properties of ultrapowers of Banach algebras, studying in this paper the notion of being purely infinite. It is well known that a \(C^*\)-algebra is purely infinite if and only if any of its ultrapowers are. We find examples of Banach algebras, as algebras of operators on Banach spaces, which do have purely infinite ultrapowers. Our main contribution is the construction of a "Cuntz-like" Banach \(*\)-algebra which is purely infinite, but whose ultrapowers are not even simple, and hence not purely infinite. This algebra is a naturally occurring analogue of the Cuntz algebra, and of the \(L^p\)-analogues introduced by Phillips. However, our proof of being purely infinite is combinatorial, but direct, and so differs from existing proofs. We show that there are non-zero traces on our algebra, which in particular implies that our algebra is not isomorphic to any of the \(L^p\)-analogues of the Cuntz algebra. |
| doi_str_mv | 10.48550/arxiv.2104.14989 |
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It is well known that a \(C^*\)-algebra is purely infinite if and only if any of its ultrapowers are. We find examples of Banach algebras, as algebras of operators on Banach spaces, which do have purely infinite ultrapowers. Our main contribution is the construction of a "Cuntz-like" Banach \(*\)-algebra which is purely infinite, but whose ultrapowers are not even simple, and hence not purely infinite. This algebra is a naturally occurring analogue of the Cuntz algebra, and of the \(L^p\)-analogues introduced by Phillips. However, our proof of being purely infinite is combinatorial, but direct, and so differs from existing proofs. 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| subjects | Algebra Banach spaces Combinatorial analysis Mathematics - Functional Analysis Mathematics - Operator Algebras Operators (mathematics) |
| title | A purely infinite Cuntz-like Banach \(\)-algebra with no purely infinite ultrapowers |
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