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    • CommentRowNumber1.
    • CommentAuthorspitters
    • CommentTimeApr 9th 2018

    PhD-thesis on categorical aspects of vN-algebras. We’ll probably want to include more results from it.

    diff, v50, current

    • CommentRowNumber2.
    • CommentAuthorDmitri Pavlov
    • CommentTimeApr 14th 2021

    Added this:

    The category of von Neumann algebras

    The category of von Neumann algebras is a locally presentable category.

    The forgetful functor from von Neumann algebras to sets that sends a von Neumann algebra to its unit ball is a right adjoint functor. In fact, it is a monadic functor and preserves all sifted colimits.

    Thus, limits and sifted colimits of von Neumann algebras can be computed on the level of underlying unit balls.

    Small coproducts of von Neumann algebras exist. There is also a “reduced” version of small coproducts, known as free products, which can be defined in a manner analogous to the spatial tensor product.

    Monoidal structures

    There are two different tensor products one can define on von Neumann algebras.

    First, one can use the usual universal property of tensor products and postulate that morphisms ABMA\otimes B\to M are in a natural bijection with pairs of morphisms AMA\to M and BMB\to M whose images commute in MM. This yields a symmetric monoidal structure on von Neumann algebras. This monoidal structure is not closed.

    Secondly, one can also define a “reduced” version, known as the spatial tensor product. Given two von Neumann algebras AA and BB, their spatial tensor product is the von Neumann algebra generated by A1A\otimes 1 and 1B1\otimes B in the von Neumann algebra B(L 2AL 2B)B(L^2 A\otimes L^2 B), where L 2AL^2 A and L 2BL^2 B are the Haagerup standard form of AA and BB respectively. This also results in a symmetric monoidal structure. Furthermore, passing to the opposite category yields a closed monoidal structure.

    diff, v51, current

    • CommentRowNumber3.
    • CommentAuthorDmitri Pavlov
    • CommentTimeMay 30th 2022

    Added references.

    diff, v54, current