2019
DOI: 10.1103/physreve.99.012701
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Negative viscosity of a liquid crystal in the presence of turbulence

Abstract: We report on the discovery of enormous negative viscosity in a nematic liquid crystal in the presence of turbulence induced by electric fields. As the negative viscosity in this system is so large, we are able to observe several phenomena originating from it. For example, we observe a spontaneous shear flow that rotates the upper disk of a rheometer, as well as the reversal of the rotational direction upon applying an external torque in the opposite direction. Hysteresis loops are also observed in the shear-st… Show more

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Cited by 12 publications
(15 citation statements)
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“…The shear stress for EBBA(H) first increased to a maximum at about 0.5 V/μm, and then decreased monotonically with increasing electric field, and the shear stress became zero around 1.2 V/μm and negative as the electric field increased further. The behavior of EBBA(H) and EBBA(L) (results not shown) was similar to that of MBBA [1].…”
Section: Methodssupporting
confidence: 55%
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“…The shear stress for EBBA(H) first increased to a maximum at about 0.5 V/μm, and then decreased monotonically with increasing electric field, and the shear stress became zero around 1.2 V/μm and negative as the electric field increased further. The behavior of EBBA(H) and EBBA(L) (results not shown) was similar to that of MBBA [1].…”
Section: Methodssupporting
confidence: 55%
“…The negative viscosity is closely related to electric fieldinduced turbulence [1]. Figure 3 shows the structures of EBBA(H) and EBBA(P) observed with a microscope.…”
Section: B Microscopic Observations Under Electric Fieldsmentioning
confidence: 94%
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