Banach-Saks property
Banach-Saks property is a property of certain normed vector spaces stating that every bounded sequence of points in the space has a subsequence that is convergent in the mean. Specifically, for every bounded sequence in the space, there exists a subsequence such that the sequence
is convergent. Sequences satisfying this property are called Banach-Saks sequences.
The concept is named after Polish mathematicians Stefan Banach and Stanisław Saks, who extended Mazur's theorem, which states that the weak limit of a sequence in a Banach space is the limit in the norm of convex combinations of the sequence's terms. They showed that in Lp(0,1) spaces, for, there exists a sequence of convex combinations of the original sequence that is also Cesàro summable. This result was further generalized by Shizuo Kakutani to uniformly convex spaces. introduced the "weak Banach-Saks property", replacing the bounded sequence condition with a sequence weakly convergent to zero, and proved that the space has this property. The definitions of both Banach-Saks properties extend analogously to subsets of normed spaces.
Theorems and examples
- Every Banach space with the Banach-Saks property is reflexive. However, there exist reflexive spaces without this property, with the first example provided by Albert Baernstein.
- Julian Schreier provided the first example of a space lacking the weak Banach-Saks property. He also proved that the space of continuous functions on the ordinal lacks this property.
- ℓp-sums of spaces with the Banach-Saks property retain this property.
- There exists a space with the Banach-Saks property for which the space lacks this property.
- The image of a strictly additive vector measure has the Banach-Saks property.
- If a Banach space has a dual space that is uniformly convex, then has the Banach-Saks property.
- The dual space of the Schlumprecht space has the Banach-Saks property.
''p''-BS property and Banach-Saks index
For a fixed real number, a bounded sequence in a Banach space is called a p-BS sequence if it contains a subsequence such thatA Banach space is said to have the p-BS property if every sequence weakly convergent to zero contains a subsequence that is a p-BS sequence. The p-BS property does not generalize the Banach-Saks property. Notably, every Banach space has the 1-BS property. The set
is of the form or, where. If, the Banach-Saks index of the space is defined as ; if, then. For example, the space has the 2-BS property.