Published Works:
R. N. Basak and S. Biswas. "Liutex-based identification of U-shaped vortices and their kinetic energy dependence in a three-dimensional cavity", Springer Proceedings in Physics, 2026 (To appear).
P. Mandal, N. Mondal and S. Biswas. "Stress impact on collinear Griffith cracks for diffraction of primary waves", Waves in Random and Complex Media, IF: 4.04 (Taylor & Francis) 2026.
R. N. Basak and S. Biswas. "On the formation and exact location of Taylor- Görtler-Like vortices in a rectangular lid-driven cavity.", Meccanica, IF: 2.1 (Springer) 61: 5 (17 pages) 2026.
R. N. Basak and S. Biswas. "Topology of streamline patterns, bifurcation and multiple solutions for two-sided right-angled isosceles triangular cavity flow", Fluid Dynamics Research, IF: 1.1 (IOP Publishing) 57 (6): 065506 (22 pages) 2025.
R. N. Basak and S. Biswas. " On the formation of U-shaped and ring-like vortex structures in the lid-driven cavity flow ", Journal of the Brazilian Society of Mechanical Sciences and Engineering, IF: 2.1 (Springer) 47 (12): 620 (17 pages) 2025.
S. Biswas and J. C. Kalita. "Topology of corner vortices in the lid-driven cavity flow: 2D vis a vis 3D", Archive of Applied Mechanics , IF: 2.0 (Springer) 90(10):2201-2216, 2020.
S. Biswas and J. C. Kalita. "Moffatt eddies in the driven cavity: a quantification study by an HOC approach", Computers and Mathematics with Applications , IF: 2.5 (Elsevier), 76(3): 471-487, 2018.
J. C. Kalita, S. Biswas, and S. Panda. "Finiteness of corner vortices", Zeitschrift für angewandte Mathematik und Physik, IF: 1.8 (Springer), 69 (2): 37 (15 pages), 2018.
S. Biswas and J. C. Kalita. "Moffatt vortices in the Lid-driven cavity flow", Journal of Physics: Conference Series, IF: 0.5 (IOP Publishing), 759 (1): 012081 (7 pages), 2016.
Submitted Works/Preprints/ Under Preparation:
R. N. Basak and S. Biswas. "Flow topology and dynamical characterization of Taylor- Görtler-Like vortices in the lid-driven cavity." (Under Review)
R. N. Basak and S. Biswas. "Flow topology and vortex dynamics of transient flow in a three-dimensional semi-circular cavity." (Under Review)