In the present paper, we investigate the structural and geometric properties of the non-absolute type sequence space ℓ_p^λ. Our primary novel contribution lies in demonstrating that the natural norm on its β-dual coincides with the dual norm of ℓ_p^λ. We then investigate geometric properties of the space and prove that ℓ_p^λ inherits uniform convexity and uniform smoothness from the classical space ℓ_p for 1 < p < ∞, while these properties fail in the case p = 1. Finally, by considering finite-dimensional truncations, we interpret the dual norm geometrically through the Wulff construction. This yields a visualization of the norm unit sphere as a Wulff shape and shows that geometric features of the resulting shape reflect the convexity and smoothness properties of the underlying sequence space.

$\beta$-dual; Dual norm; Wulff shape; Sequence space; Geometric properties

1. M. Mursaleen and E. Herawati, “On some geometric properties of sequence spaces of generalized arithmetic divisor sum function,” Journal of Inequalities and Applications, vol. 2024, 2024. doi: 10.1186/s13660-024-03208-z.

2. A. Bërdëllima and N. L. Braha, “Banach spaces of sequences arising from infinite matrices,” Annals of Functional Analysis, vol. 15, no. 3, 2024. doi: https://doi.org/10.1007/s430 34-024-00356-7.

3. T. Yaying, B. Hazarika, and M. Mursaleen, “On generalized (p,q)-euler matrix and associ ated sequence spaces,” Journal of Function Spaces, vol. 2021, no. 1, 2021. doi: https://d oi.org/10.1155/2021/8899960.

4. T. Yaying, B. Hazarika, and M. Mursaleen, “Cesàro sequence spaces via (p,q)-calculus and compact matrix operators,” The Journal of Analysis, vol. 30, 2022. doi: https://doi.org /10.1007/s41478-022-00417-x.

5. Y. Yılmaz and H. Bozkurt, “On euler sequence spaces,” Open Journal of Mathematical Sciences, vol. 8, pp. 128–136, May 2024. doi: 10.30538/oms2024.0230.

6. M. Mursaleen and F. Başar, Sequence Spaces: Topics in Modern Summability Theory (Mathematics and Its Application). CRC Press, 2020.

7. F. Başar, Summability Theory and Its Applications (2nd ed.) Chapman and Hall/CRC, 2022. doi: https://doi.org/10.1201/9781003294153.

8. M.Mursaleen and A. K. Noman, “On some new sequence spaces of non-absolute type related to the spaces ℓp and ℓ∞ i,” Filomat, vol. 25:2, pp. 33–51, 2011. doi: 10.2298/FIL1102033M.

9. M. Mursaleen and A. K. Noman, “On some new sequence spaces of non-absolute type related to the spaces ℓp and ℓ∞ ii,” Mathematical Communications, vol. 16, pp. 383–398, Jun. 2011.

10. E. Malkowsky and V. Velickovic, “Some new sequence spaces, their duals and a connection with wulff’s crystal,” Match, vol. 67, pp. 589–607, Jan. 2012.

11. E. Malkowsky, F. Özger, and V. Veličković, “Some spaces related to cesaro sequence spaces and an application to crystallography,” MATCH- Communications in Mathematical and in Computer Chemistry, vol. 70, pp. 867–884, Jan. 2013.

12. J. Boos and F. Cass, Classical and Modern Methods in Summability (Oxford mathematical monographs). Oxford University Press, 2000. Available online.

13. A. Wilansky, Summability Through Functional Analysis (North-Holland Mathematics Studies). North Holland, 2000. Available online.

14. J. Diestel, Geometry of Banach Spaces- Selected Topics. Springer Berlin, Heidelberg, 1975. doi: https://doi.org/10.1007/BFb0082079

15. R. E. Megginson, An Introduction to Banach Space Theory. Springer, 1998.

16. H. Han and T. Nishimura, “Strictly convex wulff shapes and C1 convex integrands,” Proceedings of the American Mathematical Society, vol. 145, no. 9, pp. 3997–4008, 2017.

17. H. Han and T. Nishimura, “Spherical method for studying wulff shapes and related topics,” Advanced Studies in Pure Mathematics, vol. 78, pp. 1–53, 2018.

18. H. Wu and Z.-C. Ou-Yang, “From the variational principle to the legendre transform: A revisit of the wulff construction and its computational realization,” Crystals, vol. 16, no. 2, 2026. doi: 10.3390/cryst16020108.

19. S. A. Avidan et al., Convex Geometry. Springer, 2021.

20. M. Failing, “Entwicklung numerischer algorithmen zur computergrafischen darstel lung spezieller probleme der differentialgeometrie und kristallographie,” Ph.D. thesis, 1996.