The Molecular Origin of Slip
ORAL
Abstract
Liquid flow adjacent to a solid surface can slip resulting in a finite liquid velocity at the solid/liquid interface. However, how this liquid slip occurs is poorly understood. Here, we study liquid films driven over a solid surface. We show that slip over the surface is not simply the result of independent molecular hops over the solid substrate. Rather, much of the velocity at the solid/liquid interface results from correlated motion of several molecules which propagate as nonlinear waves similar to solitons. Solitons are fundamentally important in the fluid mechanics of slip. Understanding their dynamics may suggest new methods of designing low drag surfaces and new technologies for chemical separations.
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Publication: Cam, Metehan, Seth Lichter, and Christopher G. Goedde. \Kink propagation and solute partitioning in an atomic monolayer on a substrate." Physical Review E 104.2 (2021): L022801.<br><br>Cam, Metehan, Christopher Goedde, and Seth Lichter. \Slip at the liquid-solid interface reveals soliton propagation and solute partitioning" Bulletin of the American Physical Society, APS DFD (2021).
Presenters
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Metehan Cam
Northwestern University
Authors
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Metehan Cam
Northwestern University
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Christopher G Goedde
DePaul University, Physics Department
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Seth H Lichter
Northwestern University