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  1. Tarafder et. al (2022), Pair interactions between viscous drops in a viscoelastic matrix in free shear: Transition from passing to tumbling trajectories (pdf)
  2. Mukherjee et. al (2022), Shear-induced migration of a viscous drop in a viscoelastic liquid near a wall at high viscosity ratio: reverse migration (pdf)
  3. Malipeddi, A. R. & Sarkar, K. (2021). Shear-induced diffusivity of a red blood cell suspension: effects of cell dynamics from tumbling to tank-treading. Soft Matter, 2021. (pdf)
  4. Malipeddi, A. R., & Sarkar, K. (2019). Collective diffusivity in a sheared viscous emulsion: Effects of viscosity ratio. Physical Review Fluids, 4(9), 093603. (pdf)
  5. Malipeddi, A. R., & Sarkar, K. (2019). Shear-induced collective diffusivity down a concentration gradient in a viscous emulsion of drops. Journal of Fluid Mechanics, 868, 5-25. (pdf)
  6. Singha, S., Malipeddi, A. R., Zurita-Gotor, M., Sarkar, K., Shen, K., Loewenberg, M., … & Blawzdziewicz, J. (2019). Mechanisms of spontaneous chain formation and subsequent microstructural evolution in shear-driven strongly confined drop monolayers. Soft matter, 15(24), 4873-4889. (pdf)
  7. Srivastava, P., Malipeddi, A. R., & Sarkar, K. (2016). Steady shear rheology of a viscous emulsion in the presence of finite inertia at moderate volume fractions: sign reversal of normal stress differences. Journal of Fluid Mechanics, 805, 494-522. (pdf)
  8. Malipeddi, A. R., & Chatterjee, D. (2012). Influence of duct geometry on the performance of Darrieus hydroturbine. Renewable Energy, 43, 292-300. (pdf)