- Singh S., Subramanian G. and Ansumali S.,
A two-fluid kinetic theory for polymer solutions (in preparation),
Physical Review E
(2017).
- Shankar V. and Subramanian G.,
Instability of plane Couette flow past a deformable solid at high Reynolds number (in preparation),
J. Fluid Mech.
(2017).
- Krishnamurthy D. and Subramanian G.,
Heat or mass transport from drops in shearing flows. Part II: inertial enhancement in the closed streamline regime (in preparation),
Phys. Rev. F
(2017).
- Krishnamurthy D. and Subramanian G.,
Heat or mass transport from drops in shearing flows. Part I: the open streamline regime (in preparation),
Phys. Rev. F
(2017).
- Navaneeth K.M. and Subramanian G.,
The orientation dynamics of inertial spheroids in planar linear flows,
J. Fluid Mech.
(2017).
- Navaneeth K.M. and Subramanian G.,
The effect of inertia on the time period of rotation of anisotropic particles in simple shear flow,
J. Fluid Mech.
(2017).
- Nambiar S., Nott P.R. and Subramanian G.S,
Stress relaxation in a dilute bacterial suspension,
J. Fluid Mech.
812, 41 - 64 (2017).
- Navaneeth K.M., Dwivedi R. and Ganesh Subramanian,
An orientational order transition in a sheared suspension of anisotropic particles,
J. Fluid Mech. (Rapids)
811, (2017).
- Roy A., Garg P., Reddy J.S., and Subramanian G.,
The instability of an elastic vortex column,
J. Fluid Mech. (in preparation)
(2017).
- Dabade V., Navaneeth K.M. and Subramanian G.,
The effect of inertia on the orientation dynamics of anisotropic particles in simple shear flow,
J. Fluid Mech.
791, 631 - 703 (2016).
- Krishnamurthy D. and Subramanian G.,
Collective motion in suspensions of micro-swimmers that run-and-tumble and rotary diffuse,
J. Fluid Mech.
781, 422 - 466 (2015).
- Dabade V., Navaneeth K.M. and Subramanian G.,
Effects of inertia and viscoelasticity on sedimenting anisotropic particles,
J. Fluid Mech.
778, 133 - 188 (2015).
- Kasbaoui M.H., Koch D.L., Subramanian G. and Desjardins O.,
Preferential concentration driven instability of sheared gas-solid suspensions,
J. Fluid Mech.
770, 085 - 123 (2015).
- Roy A. and Subramanian G.,
An inviscid modal interpretation of the lift-up effect,
J. Fluid Mech.
757, 082 - 113 (2014).
- Singh, V., Koch, D.L., Subramanian G. and Stroock, A.B.,
The rotational motion of a thin axisymmetric disk in a low-Reynolds-number linear flow,
Phys. Fluids
26, 033303 (2014).
- Roy A. and Subramanian G.,
Linearized oscillations of an inviscid vortex column: the singular eigenfunctions,
J. Fluid Mech.
741, 404 - 460 (2014).
- Sandoval M., Navaneeth K.M., Subramanian G. and Lauga E.,
Stochastic dynamics of active swimmers in linear flows,
J. Fluid Mech.
742, 50 - 70 (2014).
- Mukund V., Singh D.K., Ponnulakshmi V.K., Subramanian G. and Sreenivas K.R.,
Field and laboratory experiments on aerosol-induced cooling in the nocturnal boundary layer,
Quarterly J. Roy. Met. Soc.
140, 151 - 169 (2014).
- Shiwani Singh, G. Subramanian and S. Ansumali,
A lattice Fokker-Planck for dilute polymer dynamics,
Physical Review E
88, 013301 (2013).
- Ponnulakshmi V.K., Singh D.K., Mukund V., Sreenivas K.R. and Subramanian G.,
Hypercooling in the nocturnal boundary layer - beyond broadband emissivity schemes,
J. Atmos. Sci.
70, 278 - 283 (2013).
- Mukund V., Singh D.K., Ponnulakshmi V.K., Subramanian G. and Sreenivas K.R.,
Hypercooling in the nocturnal boundary layer - broadband emissivity schemes,
J. Atmos. Sci.
69, 2892 - 2905 (2012).
- Ganesh Subramanian and Nott P.R.,
The fluid dynamics of swimming microorganisms and cells (invited review),
IISc J.
91, 283 - 313 (2011).
- Shiwani S., Subramanian G. and Ansumali S.,
A Lattice Boltzmann method for dilute polymer solutions,
Phil. Trans. Royal Soc. (London)
369, 2301 - 2310 (2011).
- Koch D.L. and Subramanian G.,
Collective hydrodynamics of swimming micro-organisms: Living fluids,
Ann. Rev. Fluid Mech.
43, 637 - 659 (2011).
- Subramanian G., Koch D.L. and Sean R. Fitzgibbon,
The stability of a homogeneous suspension of chemotactic bacteria
(This article was selected for the April 15, 2011, issue of the Virtual journal of Biological Physics Research),
Phys. Fluids
23, 041901 (2011).
- Subramanian G., Koch D.L., Zhang J. and Yang C.,
The influence of the inertially dominated outer region on the rheology of a dilute suspension of low-Reynolds-number drops and particles,
J. Fluid Mech
674, 307 - 358 (2011).
- Mukund, V., Ponnulakshmi, V.K., Dhiraj, K.S., Subramanian, G. and Sreenivas, K.R.,
Hyper-cooling in the nocturnal boundary layer – the Ramdas paradox,
Physica Scripta
014041 (2010).
- Subramanian G.,
Viscosity-enhanced bio-mixing of the oceans,
Current Science
98, 1103 - 1108 (2010).
- Subramanian G.,
Wading through Batchelor's book,
Resonance - Journal of science education
15, 363 - 383 (2010).
- Vivek R. Raja, Subramanian G. and Koch D.L,
Inertial effects on the rheology of a dilute emulsion,
J. Fluid Mech
646, 255 - 296 (2010).
- Mansoo Shin, Koch D.L., and Subramanian G.,
Structure and dynamics of dilute suspensions of finite-Reynolds-number settling fibres,
Phys. Fluids
21, 123304 (2009).
- Subramanian G. and Koch D.L.,
Critical bacterial concentration for the onset of collective swimming,
J. Fluid Mech
632, 359 - 399 (2009).
- Ponnulakshmi V.K., Subramanian G., Sreenivas K.R. and Mukund V,
The Ramdas layer remains a micro-meteorological mystery,
EMU Report
1 - 41 (2009).
- W. Brent Daniel, Robert E.Ecke, G. Subramanian and D.L. Koch,
Clusters of sedimenting high-Reynolds-number particles,
J. Fluid Mech.
625, 371 - 385 (2008).
- G. Subramanian and D.L. Koch,
Evolution of clusters of sedimenting low-Reynolds-number particles with Oseen interactions,
J. Fluid Mech.
603, 63 - 100 (2008).
- Qian Liao, Subramanian G, Delisa M. P, Koch D. L and Mingming Wu,
Pair velocity correlations among swimming Escherichia coli bacteria are determined by force-quadrupole hydrodynamic interactions.
(This article was selected for the June 15, 2007, issue of the Virtual journal of Biological Physics Research)
,
Phys. Fluids
19, 061701 - 061705 (2007).
- Subramanian G and Koch D. L,
Heat transfer from a neutrally buoyant sphere in a second-order fluid,
Journal of non-Newtonian Fluid Mech
144, 49 - 57 (2007).
- Subramanian G. and Brady J.F.,
Trajectory analysis for non-Brownian inertial suspensions in simple shear flow,
J. Fluid Mech
559, 151 - 203 (2006).
- Koch D. L and Subramanian G,
The stress in a dilute suspension of spheres suspended in a second-order fluid subject to a linear velocity field,
Journal of non-Newtonian Fluid Mech
138, 87 (2006).
- Subramanian G and Koch D. L,
Centrifugal forces alter streamline topology and greatly enhance the rate of heat and mass transfer from neutrally buoyant particles to a shear flow,
Physical Review Letters
96(4), 134503 (2006).
- Mansoo Shin, Koch D. L and Subramanian G,
A pseudo-spectral method to evaluate the fluid velocity produced by an array of translating slender fibres,
Phys. Fluids
18(6), 63301 (2006).
- Subramanian G and Koch D. L,
Inertial effects on the transfer of heat or mass from neutrally buoyant spheres in a steady linear velocity field,
Phys. Fluids
18(7), 73302 (2006).
- Subramanian G and Koch D. L,
Inertial effects on the motion of nearly spherical particles in simple shear flow,
J. Fluid Mech
557, 257 - 296 (2006).
- Subramanian G and Koch D. L,
Inertial effects on fibre motion in simple shear flow,
J. Fluid Mech
535, 383 - 414 (2005).
- Subramanian G and Brady J. F,
A Chapman-Enskog formalism for inertial suspensions,
Physica A
334, 385 - 416 (2004).
- Subramanian G and Brady J. F,
Multiple-scales analysis of the Fokker-Planck equation for simple shear flow,
Physica A
334, 343 - 384 (2004).
- Ganesh Subramanian,
Emerging vistas in liquid emulsion membrane technology,
Bombay Technologist
(1996).
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