We use linear stability analysis to show that an isotropic phase of elongated particles with dipolar flow fields can develop nematic order as a result of their activity. We argue that ordering is favoured if the particles are flow-aligning and is strongest if the wavevector of the order perturbation is neither parallel nor perpendicular to the nematic director. Numerical solutions of the hydrodynamic equations of motion of an active nematic confirm the results. The instability is contrasted to the well-known hydrodynamic instability of an ordered active nematic
Active nematics are a class of nonequilibrium systems which have received much attention in the form...
Active nematic fluids confined in narrow channels are known to generate spontaneous flows when the a...
The physics of active liquid crystals is mostly governed by the interplay between elastic forces tha...
We study the kinetics of the nematic-isotropic transition in a two-dimensional liquid crystal by ...
We consider the hydrodynamic theory of an active fluid of self-propelled particles with nematic alig...
International audienceWe study dry active nematics at the kinetic equation level, stressing the diff...
Basing our arguments on the theory of active liquid crystals, we demonstrate, both analytically and ...
Topological defects play a prominent role in the physics of two-dimensional materials. When driven o...
We analyze the elongational-flow-driven Doi nematodynamic equations for spatially homogeneous nemati...
Suspensions of actively driven anisotropic objects exhibit distinctively nonequilibrium behaviors, a...
In this thesis I will discuss the effects of shear flow on the Isotropic-Nematic phase transition in...
With quenched disorder, we introduce two-dimensional active nematics suspended in an incompressible ...
We investigate kinetics of nematic-isotropic transition by solving the hydrodynamic equations for t...
We study the interplay between flow, structure, and topology in liquid crystals, in both passive and...
We formulate the statistical dynamics of topological defects in the active nematic phase, formed in ...
Active nematics are a class of nonequilibrium systems which have received much attention in the form...
Active nematic fluids confined in narrow channels are known to generate spontaneous flows when the a...
The physics of active liquid crystals is mostly governed by the interplay between elastic forces tha...
We study the kinetics of the nematic-isotropic transition in a two-dimensional liquid crystal by ...
We consider the hydrodynamic theory of an active fluid of self-propelled particles with nematic alig...
International audienceWe study dry active nematics at the kinetic equation level, stressing the diff...
Basing our arguments on the theory of active liquid crystals, we demonstrate, both analytically and ...
Topological defects play a prominent role in the physics of two-dimensional materials. When driven o...
We analyze the elongational-flow-driven Doi nematodynamic equations for spatially homogeneous nemati...
Suspensions of actively driven anisotropic objects exhibit distinctively nonequilibrium behaviors, a...
In this thesis I will discuss the effects of shear flow on the Isotropic-Nematic phase transition in...
With quenched disorder, we introduce two-dimensional active nematics suspended in an incompressible ...
We investigate kinetics of nematic-isotropic transition by solving the hydrodynamic equations for t...
We study the interplay between flow, structure, and topology in liquid crystals, in both passive and...
We formulate the statistical dynamics of topological defects in the active nematic phase, formed in ...
Active nematics are a class of nonequilibrium systems which have received much attention in the form...
Active nematic fluids confined in narrow channels are known to generate spontaneous flows when the a...
The physics of active liquid crystals is mostly governed by the interplay between elastic forces tha...