Auswahl der wissenschaftlichen Literatur zum Thema „Quincke electrorotation“
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Zeitschriftenartikel zum Thema "Quincke electrorotation"
YU, K. W., G. Q. GU, J. P. HUANG und J. J. XIAO. „DYNAMIC ELECTRORHEOLOGICAL EFFECTS OF ROTATING PARTICLES: A BRIEF REVIEW“. International Journal of Modern Physics B 19, Nr. 07n09 (10.04.2005): 1163–69. http://dx.doi.org/10.1142/s0217979205030013.
Der volle Inhalt der QuelleDong, Qingming, und Amalendu Sau. „Unsteady electrorotation of a viscous drop in a uniform electric field“. Physics of Fluids 35, Nr. 4 (April 2023): 047116. http://dx.doi.org/10.1063/5.0140845.
Der volle Inhalt der QuelleDas, Debasish, und David Saintillan. „Electrohydrodynamics of viscous drops in strong electric fields: numerical simulations“. Journal of Fluid Mechanics 829 (14.09.2017): 127–52. http://dx.doi.org/10.1017/jfm.2017.560.
Der volle Inhalt der QuelleDong, Qingming, Zonglu Xie, Xiang Zhou, Jingang Lu und Zhentao Wang. „Collective propulsion of viscous drop pairs based on Quincke rotation in a uniform electric field“. Physics of Fluids 36, Nr. 1 (01.01.2024). http://dx.doi.org/10.1063/5.0178746.
Der volle Inhalt der QuelleDissertationen zum Thema "Quincke electrorotation"
Lefranc, Thibault. „Quorum sensing dans des assemblées de particules actives synthétiques : Séparation de phase induite par la motilité“. Electronic Thesis or Diss., Lyon, École normale supérieure, 2023. https://theses.hal.science/tel-04510010.
Der volle Inhalt der QuelleActive matter is defined as an assembly of particles capable of transforming energy into movement on their own scale. There are many examples of active matter in nature, from a colony of bacteria to a flock of zebras, from school of fishes to human crowds. Despite this perpetual movement of individuals, it is possible in some cases to observe phase separation, i.e. the formation of defined zones of different densities. This can be explained by the detection of quorum: particles take account of their neighbors to adjust their activity. Over the last ten years or so, all the building blocks of soft matter (polymers, colloids, etc.) have been motorized to produce active materials in the laboratory. However, no form of synthetic quorum sensing has yet been reported. In this thesis, we present the first results demonstrating the possibility of creating a simple form of quorum sensing in the laboratory. For this purpose, we have chosen a colloidal rod as the basic element. We first present a theoretical analysis explaining the behavior of active rods. This analysis is an extension to anisotropic particles of Quincke's electrorotation phenomenon, already used to render spheres active. It sheds light on the richer behavior of rods. We then detail the experimental approach for the concrete implementation of motorization of these active colloids, which is at the heart of this thesis work. Finally, we report on the results obtained, which indicate a first experimental realization of artificial quorum sensing, including the observation and characterization of a phase separation induced by conditional particle motility