We report numerical studies of the hydrodynamics and rheology of an active liquid crystal. We confirm the existence of a transition between a passive and an active phase, with spontaneous flow in steady state. We explore how the velocity profile changes with activity, and we point out the difference in behavior for flow-aligning and tumbling materials. We find that an active material can thicken or thin under a flow, or even exhibit both behaviors as the forcing changes
Recent experiments on active materials, such as dense bacterial suspensions and microtubule–kinesin ...
Liquid crystals are anisotropic, viscoelastic materials with properties intermediate of solids and l...
Dense, active systems show active turbulence, a state characterised by flow fields that are chaotic,...
We report numerical studies of the hydrodynamics and rheology of an active liquid crystal. We confir...
We report numerical studies of the hydrodynamics and rheology of an active liquid crystal. We con...
Active liquid crystals or active gels are soft materials which can be physically realised, e.g. by p...
We report hybrid lattice Boltzmann (HLB) simulations of the hydrodynamics of an active nematic liqui...
We report hybrid lattice Boltzmann HLB simulations of the hydrodynamics of an active nematic liquid ...
Active gels or active liquid crystals are soft materials which are driven out of equilibrium by t...
We study the interplay between flow, structure, and topology in liquid crystals, in both passive and...
A paradigm for internally driven matter is the active nematic liquid crystal, whereby the equations ...
In this thesis we study the physics of colloidal dispersions in active and passive liquid crystals b...
The aims of this project were to characterize the phenomena that occur during the flow of liquid cry...
Abstract.: We review the state of the art of active fluids with particular attention to hydrodynamic...
We study stable equilibria of liquid crystals in the flow being at rest and the stable dynamic state...
Recent experiments on active materials, such as dense bacterial suspensions and microtubule–kinesin ...
Liquid crystals are anisotropic, viscoelastic materials with properties intermediate of solids and l...
Dense, active systems show active turbulence, a state characterised by flow fields that are chaotic,...
We report numerical studies of the hydrodynamics and rheology of an active liquid crystal. We confir...
We report numerical studies of the hydrodynamics and rheology of an active liquid crystal. We con...
Active liquid crystals or active gels are soft materials which can be physically realised, e.g. by p...
We report hybrid lattice Boltzmann (HLB) simulations of the hydrodynamics of an active nematic liqui...
We report hybrid lattice Boltzmann HLB simulations of the hydrodynamics of an active nematic liquid ...
Active gels or active liquid crystals are soft materials which are driven out of equilibrium by t...
We study the interplay between flow, structure, and topology in liquid crystals, in both passive and...
A paradigm for internally driven matter is the active nematic liquid crystal, whereby the equations ...
In this thesis we study the physics of colloidal dispersions in active and passive liquid crystals b...
The aims of this project were to characterize the phenomena that occur during the flow of liquid cry...
Abstract.: We review the state of the art of active fluids with particular attention to hydrodynamic...
We study stable equilibria of liquid crystals in the flow being at rest and the stable dynamic state...
Recent experiments on active materials, such as dense bacterial suspensions and microtubule–kinesin ...
Liquid crystals are anisotropic, viscoelastic materials with properties intermediate of solids and l...
Dense, active systems show active turbulence, a state characterised by flow fields that are chaotic,...
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