Adili Masanika scite author profile

This paper is a study of linear spaces of matrices and linear maps on matrix algebras that arise from spin systems, or spin unitaries, which are finite sets S of selfadjoint unitary matrices such that any two unitaries in S anticommute. We are especially interested in linear isomorphisms between these linear spaces of matrices such that the matricial order within these spaces is preserved; such isomorphisms are called complete order isomorphisms, which might be viewed as weaker notion of unitary similarity. The main result of this paper shows that all m-tuples of anticommuting selfadjoint unitary matrices are equivalent in this sense, meaning that there exists a unital complete order isomorphism between the unital linear subspaces that these tuples generate. We also show that the C *envelope of any operator system generated by a spin system of cardinality 2k or 2k + 1 is the simple matrix algebra M 2 k (C). As an application of the main result, we show that the free spectrahedra determined by spin unitaries depend only upon the number of the unitaries, not upon the particular choice unitaries, and we give a new, direct proof of the fact [11] that the spin ball B spin m and max ball B max m coincide as matrix convex sets in the cases m = 1, 2.

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Corrigendum to “Complete order equivalence of spin unitaries” [Linear Algebra Appl. 610 (2021) 1–28]

Farenick

Huntinghawk

Masanika

et al. 2022

Linear Algebra and its Applications

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Adili Masanika

Complete order equivalence of spin unitaries

Complete Order Equivalence of Spin Unitaries

Corrigendum to “Complete order equivalence of spin unitaries” [Linear Algebra Appl. 610 (2021) 1–28]

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