| Collective hydrodynamics of swimming microorganisms: living fluids DL Koch, G Subramanian Annual Review of Fluid Mechanics 43, 637-659, 2011 | 448 | 2011 |
| Inertial effects on fibre motion in simple shear flow G Subramanian, DL Koch Journal of Fluid Mechanics 535, 383-414, 2005 | 148 | 2005 |
| Critical bacterial concentration for the onset of collective swimming G Subramanian, DL Koch Journal of Fluid Mechanics 632, 359-400, 2009 | 146 | 2009 |
| Perspectives on viscoelastic flow instabilities and elastic turbulence SS Datta, AM Ardekani, PE Arratia, AN Beris, I Bischofberger, ... Physical Review Fluids 7 (8), 080701, 2022 | 113 | 2022 |
| Viscoelastic pipe flow is linearly unstable P Garg, I Chaudhary, M Khalid, V Shankar, G Subramanian Physical review letters 121 (2), 024502, 2018 | 81 | 2018 |
| Inertial effects on the transfer of heat or mass from neutrally buoyant spheres in a steady linear velocity field G Subramanian, DL Koch Physics of Fluids 18 (7), 2006 | 79 | 2006 |
| Effects of inertia and viscoelasticity on sedimenting anisotropic particles V Dabade, NK Marath, G Subramanian Journal of Fluid Mechanics 778, 133-188, 2015 | 68 | 2015 |
| The stress in a dilute suspension of spheres suspended in a second-order fluid subject to a linear velocity field DL Koch, G Subramanian Journal of non-newtonian fluid mechanics 138 (2-3), 87-97, 2006 | 66* | 2006 |
| Centrifugal forces alter streamline topology and greatly enhance the rate of heat and mass transfer from neutrally buoyant particles to a shear flow G Subramanian, DL Koch Physical review letters 96 (13), 134503, 2006 | 64 | 2006 |
| Inertial effects on the orientation of nearly spherical particles in simple shear flow G Subramanian, DL Koch Journal of Fluid Mechanics 557, 257-296, 2006 | 63 | 2006 |
| Pair velocity correlations among swimming Escherichia coli bacteria are determined by force-quadrupole hydrodynamic interactions Q Liao, G Subramanian, MP DeLisa, DL Koch, M Wu Physics of Fluids 19 (6), 2007 | 56 | 2007 |
| Evolution of clusters of sedimenting low-Reynolds-number particles with Oseen interactions G Subramanian, DL Koch Journal of Fluid Mechanics 603, 63-100, 2008 | 53 | 2008 |
| The centre-mode instability of viscoelastic plane Poiseuille flow M Khalid, I Chaudhary, P Garg, V Shankar, G Subramanian Journal of Fluid Mechanics 915, A43, 2021 | 50 | 2021 |
| Understanding viscoelastic flow instabilities: Oldroyd-B and beyond HAC Sánchez, MR Jovanović, S Kumar, A Morozov, V Shankar, ... Journal of Non-Newtonian Fluid Mechanics 302, 104742, 2022 | 46 | 2022 |
| The stability of a homogeneous suspension of chemotactic bacteria G Subramanian, DL Koch, SR Fitzgibbon Physics of Fluids 23 (4), 2011 | 45 | 2011 |
| The effect of inertia on the orientation dynamics of anisotropic particles in simple shear flow V Dabade, NK Marath, G Subramanian Journal of Fluid Mechanics 791, 631-703, 2016 | 44 | 2016 |
| Collective motion in a suspension of micro-swimmers that run-and-tumble and rotary diffuse D Krishnamurthy, G Subramanian Journal of Fluid Mechanics 781, 422-466, 2015 | 41 | 2015 |
| Continuous pathway between the elasto-inertial and elastic turbulent states in viscoelastic channel flow M Khalid, V Shankar, G Subramanian Physical Review Letters 127 (13), 134502, 2021 | 40 | 2021 |
| Linear instability of viscoelastic pipe flow I Chaudhary, P Garg, G Subramanian, V Shankar Journal of Fluid Mechanics 908, A11, 2021 | 39 | 2021 |
| Multiple scales analysis of the Fokker–Planck equation for simple shear flow G Subramanian, JF Brady Physica A: Statistical Mechanics and its Applications 334 (3-4), 343-384, 2004 | 38 | 2004 |
