EXTREME POINTS FOR COMBINATORIAL BANACH SPACES
Glasgow mathematical journal, Tome 61 (2019) no. 2, pp. 487-500

Voir la notice de l'article provenant de la source Cambridge University Press

A norm ‖ċ‖ on c00 is called combinatorial if there is a regular family of finite subsets $\mathcal{F}$, so that $\|x\|=\sup_{F \in \mathcal{F}} \sum_{i \in F} |x(i)|$. We prove the set of extreme points of the ball of a combinatorial Banach space is countable. This extends a theorem of Shura and Trautman. The second contribution of this article is to exhibit many new examples of extreme points for the unit ball of dual Tsirelson's original space and give an explicit construction of an uncountable collection of extreme points of the ball of Tsirelson's original space. We also prove some stability properties of the intermediate norms used to define Tsirelson's space and give a lower bound of the stabilization function for these intermediate norms.
BEANLAND, KEVIN; DUNCAN, NOAH; HOLT, MICHAEL; QUIGLEY, JAMES. EXTREME POINTS FOR COMBINATORIAL BANACH SPACES. Glasgow mathematical journal, Tome 61 (2019) no. 2, pp. 487-500. doi: 10.1017/S0017089518000319
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[1] 1. Alspach, D. E. and Argyros, S. A., Complexity of weakly null sequences, Dissertationes Math. (Rozprawy Mat.), 321 (44) (1992). Google Scholar

[2] 2. Argyros, S. A. and Tolias, A., Methods in the theory of hereditarily indecomposable Banach spaces, Mem. Amer. Math. Soc. 170 (806) (2004), vi+114, 2004. Google Scholar

[3] 3. Aron, R. M. and Lohman, R. H., A geometric function determined by extreme points of the unit ball of a normed space, Pac. J. Math. 127 (2) (1987), 209–231. Google Scholar

[4] 4. Beanland, K. and Chu, H., The λ-property for combinatorial Banach spaces. Preprint. Google Scholar

[5] 5. Beanland, K., Duncan, N. and Holt, M., Time stopping for Tsirelson's norm. Involve 11 (5) (2018), 857–866. Google Scholar

[6] 6. Casazza, P. G. and Shura, T. J., Tsirel′son's space, Lecture notes in mathematics, vol. 1363 (Springer-Verlag, Berlin, 1989). With an appendix by Baker, J., Slotterbeck, O. and Aron, R.. Google Scholar

[7] 7. Gasparis, I. and Leung, D. H., On the complemented subspaces of the Schreier spaces, Stud. Math. 141 (3) (2000), 273–300. Google Scholar

[8] 8. Lindenstrauss, J. and Phelps, R. R., Extreme point properties of convex bodies in reflexive Banach spaces, Isr. J. Math. 6 (1968), 39–48. Google Scholar

[9] 9. Shura, T. J. and Trautman, D., The λ-property in Schreier's space S and the Lorentz space d(a, 1), Glasg. Math. J. 32 (3) (1990), 277–284. Google Scholar

[10] 10. Tsirelson, B. S., It is impossible to imbed of c into an arbitrary Banach space, Funkcional. Anal. Priložen 8 (2) (1974), 57–60. Google Scholar

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