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Antipolar ordering of topological defects in active liquid crystals
Anand U. Oza
, Jörn Dunkel
Research output
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Contribution to journal
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Article
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peer-review
47
Scopus citations
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Dive into the research topics of 'Antipolar ordering of topological defects in active liquid crystals'. Together they form a unique fingerprint.
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Keyphrases
Topological Defects
100%
Active Liquid Crystals
100%
Continuum Theory
33%
Non-equilibrium
33%
Free Energy
33%
Two Dimensional
33%
Active Matter
33%
Theoretical Description
33%
Pattern Formation
33%
Production Process
33%
Symmetry Breaking
33%
Microtubules
33%
Published Data
33%
Motor Drives
33%
Landau-de Gennes
33%
Bacterial Suspensions
33%
Fundamental Symmetries
33%
Particle Pair
33%
Kinesin
33%
Ordering Principle
33%
Extensile
33%
Pair Production
33%
Non-equilibrium Dynamics
33%
Microtubule Bundles
33%
Bilayer Material
33%
Selection Principles
33%
Quantum System
33%
Scale Selection
33%
Interacting Quantum Gas
33%
Elastic Bilayer
33%
Strongly Interacting
33%
Physics
Liquid Crystal
100%
Energetics
33%
Broken Symmetry
33%
Free Energy
33%
Active Matter
33%
Pair Production
33%
Non-Equilibrium Dynamics
33%
Adenosine Triphosphate
33%
Quantum Gas
33%
Chemistry
Liquid Crystal
100%
Nonequilibrium
66%
Energetics
33%
Gibbs Free Energy
33%
Pair Production
33%
ATP
33%
Material Science
Liquid Crystal
100%
Adenosinetriphosphate
33%