Dr. Aditya Khair - University of California, Santa Barbara

Publications

A pdf copy of any of the papers below may be obtained by e-mailing me (akhairATengineeringDOTucsbDOTedu).

R. DePuit, A. S. Khair, & T. M. Squires, Linear and nonlinear microrheology: Bridging the gap. In preparation.
A. S. Khair, & T. M. Squires, Ion steric effects on electrophoresis of a colloidal particle. J. Fluid Mech. 640, 343-356 (2009).
A. Ramachandran & A. S. Khair, The dynamics and rheology of a dilute suspension of hydrodynamically Janus spheres in a linear flow. J. Fluid Mech. 633, 233-269 (2009).
A. S. Khair & T. M. Squires, The influence of hydrodynamic slip on the electrophoretic mobility of a spherical colloidal particle. Phys. Fluids 21, 042001 (2009).
A. S. Khair & T. M. Squires, Surprising consequences of ion conservation in electro-osmosis over a surface charge discontinuity. J. Fluid Mech. 615, 323-334 (2008).
A. S. Khair & T. M. Squires, Fundamental aspects of concentration polarization arising from non-uniform electrokinetic transport. Phys. Fluids 20, 087102 (2008).
Also selected to appear in Virtual Journal of of Nanoscale Science & Technology, Aug. 18, 2008.
J. W. Swan & A. S. Khair, Hydrodynamics of "slip-stick" particles. J. Fluid Mech. 606, 115-132 (2008).
A. S. Khair & J. F. Brady, Microrheology of colloidal dispersions: shape matters. J. Rheol. 52(1), 165-196 (2008).
A. S. Khair & J. F. Brady, On the motion of two particles translating with equal velocities through a colloidal dispersion. Proc. Roy. Soc. A 463, 223-240 (2007).
A. S. Khair, The "Einstein Correction" to the bulk viscosity in n dimensions. J. Colloid Interface Sci. 302, 702-703 (2006).
A. S. Khair & J. F. Brady, Single particle motion in colloidal dispersions: A simple model for active and nonlinear microrheology. J. Fluid Mech. 557, 73-117 (2006).
J. F. Brady, A. S. Khair, & M. Swaroop, On the bulk viscosity of suspensions. J. Fluid Mech. 554 (50th anniversary issue), 109-123 (2006).
A. S. Khair, M. Swaroop, & J. F. Brady, A new resistance function for two rigid spheres in a uniform compressible low-Reynolds-number flow. Phys. Fluids 18, 043102 (2006).
A. S. Khair & J. F. Brady, "Microviscoelasticity" of colloidal dispersions. J. Rheol. 49(6), 1449-1481 (2005).
D. M. Phillips, A. S. Khair, & M. S. Jhon, Mathematical simulation of ultra-thin polymeric film spreading dynamics. IEEE Trans. Magnetics 37, 1866-1868 (2001).

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