Add to ORKGWhile studies of active nematics in two dimensions have shed light on various aspects of the flow regimes and topology of active matter, three-dimensional properties of topological defects and chaotic flows remain unexplored. By confining a film of active nematics between two parallel plates, we use continuum simulations and analytical arguments to demonstrate that the crossover from quasi-two-dimensional (quasi-2D) to threedimensional (3D) chaotic flows is controlled by the morphology of the disclination lines. For small plate separations, the active nematic behaves as a quasi-2D material, with straight topological disclination lines spanning the height of the channel and exhibiting effectively 2D active turbulence. Upon increasing channel...
Synthetic active matter is emerging as the prime route for the realisation of biological mechanisms ...
We study how confinement transforms the chaotic dynamics of bulk microtubule-based active nematics i...
We study the interplay between flow, structure, and topology in liquid crystals, in both passive and...
While studies of active nematics in two dimensions have shed light on various aspects of the flow re...
Point-like motile topological defects control the universal dynamics of diverse two-dimensional acti...
The spontaneous emergence of collective flows is a generic property of active fluids and often leads...
Active nematics contain topological defects that (under sufficient activity) move, create, and annih...
The physics of active liquid crystals is mostly governed by the interplay between elastic forces tha...
We numerically investigate how spatial variations of extensile or contractile active stress affect b...
We describe the flows and morphological dynamics of topological defect lines and loops in three-dime...
Active nematic fluids confined in narrow channels generate spontaneous flows when the activity is su...
Topological defects play a prominent role in the physics of two-dimensional materials. When driven o...
Active matter is naturally out of equilibrium which results in the emergence of diverse dynamic stea...
We study a continuum model of an extensile active nematic to show that mesoscale turbulence develops...
Treballs Finals de Grau de Física, Facultat de Física, Universitat de Barcelona, Curs: 2019, Tutor: ...
Synthetic active matter is emerging as the prime route for the realisation of biological mechanisms ...
We study how confinement transforms the chaotic dynamics of bulk microtubule-based active nematics i...
We study the interplay between flow, structure, and topology in liquid crystals, in both passive and...
While studies of active nematics in two dimensions have shed light on various aspects of the flow re...
Point-like motile topological defects control the universal dynamics of diverse two-dimensional acti...
The spontaneous emergence of collective flows is a generic property of active fluids and often leads...
Active nematics contain topological defects that (under sufficient activity) move, create, and annih...
The physics of active liquid crystals is mostly governed by the interplay between elastic forces tha...
We numerically investigate how spatial variations of extensile or contractile active stress affect b...
We describe the flows and morphological dynamics of topological defect lines and loops in three-dime...
Active nematic fluids confined in narrow channels generate spontaneous flows when the activity is su...
Topological defects play a prominent role in the physics of two-dimensional materials. When driven o...
Active matter is naturally out of equilibrium which results in the emergence of diverse dynamic stea...
We study a continuum model of an extensile active nematic to show that mesoscale turbulence develops...
Treballs Finals de Grau de Física, Facultat de Física, Universitat de Barcelona, Curs: 2019, Tutor: ...
Synthetic active matter is emerging as the prime route for the realisation of biological mechanisms ...
We study how confinement transforms the chaotic dynamics of bulk microtubule-based active nematics i...
We study the interplay between flow, structure, and topology in liquid crystals, in both passive and...