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The effects of viscoelasticity have been shown to manifest themselves via symmetry breaking. In this investigation, we show a novel phenomenon that arises from this idea. We observe that when a dense sphere is rotated near a wall (the rotation being aligned with the wall-normal direction and gravity), it levitates to a fixed distance away from the wall. Since the shear is larger in the gap (between the sphere and the wall) than in the open side of the sphere, the shear-induced elastic stresses are thus asymmetric, resulting in a net elastic vertical force that balances the weight of the sphere. We conduct experiments, theoretical models and numerical simulations for rotating spheres of various sizes and densities in a Boger-type fluid. In the small-Deborah-number range, the results are collapsed into a universal trend by considering a dimensionless group of the ratio of elastic to gravitational forces.
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Lee, Howon; Simone, Nicholas; Su, Yunxing; Zhu, Yuanhang; Ribeiro, Bernardo Luiz; Franck, Jennifer A.; Breuer, Kenneth (, Physical Review Fluids)
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Ribeiro, Bernardo Luiz; Su, Yunxing; Guillaumin, Quentin; Breuer, Kenneth S.; Franck, Jennifer A. (, Physical Review Fluids)null (Ed.)
