1. ORTHOGONAL ADDITIVITY OF MONOMIALS IN POSITIVE HOMOGENEOUS POLYNOMIALS.
- Author
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Kusraeva, Zalina A. and Tamaeva, Victoria A.
- Subjects
- *
RIESZ spaces , *POSITIVE operators , *BANACH lattices , *LINEAR operators , *POLYNOMIALS , *CALCULUS , *HOMOGENEOUS polynomials - Abstract
A monomial in finite collection of homogeneous polynomials is a point-wise product of these polynomials each raised to some power. It was established in [14] and [15] that, given a finite set of positive linear operators acting from an Archimedean vector lattice into an f-algebra with multiplicative unit, the corresponding monomial is orthogonally additive polynomial if and only if the collection of these operators is a disjointness preserving set. It is shown in this paper that a similar result is also true in the case when the target space is a uniformly complete vector lattice. Moreover, the result remains valid if we replace the linear operators with homogeneous orthogonally additive polynomials. The correct definition of monomials in homogeneous polynomials is guaranteed by the homogeneous functional calculus and the concavification procedure. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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