Keyphrases
Vertex Model
100%
Epithelial Tissue
51%
Epithelium
42%
Tissue Mechanics
40%
Two Dimensional
38%
Phase Transition
38%
Bending Rigidity
38%
Cellular Level
35%
Elastic Membrane
34%
Quantum Phase Transition
34%
Topological Defects
34%
Epithelial Monolayer
34%
Numerical Simulation
33%
Rheological Behavior
33%
Nematic Order
33%
Cell Shape
31%
Line Tension
29%
Monte Carlo Simulation
28%
Active Force
28%
Mechanical Force
28%
Rare Regions
28%
Active Nematics
28%
Phase Diagram
27%
Normal Mode Analysis
24%
Motion Pattern
23%
Ribbon
23%
Nanoparticles
23%
Persistence Length
22%
Elastic Properties
22%
T1 Transition
21%
Active Matter
21%
Molecular Dynamics Simulation
21%
Spherical Topology
20%
Cell Division
20%
Linear Viscoelastic Properties
19%
Viscoelastic Response
19%
Mechanochemical Feedback
19%
Convergence Extension
19%
Linear Viscoelasticity
19%
Spin Fluctuations
19%
Gaussian Curvature
19%
Dissipation Mechanism
19%
Crystallization
19%
Cell Monolayer
19%
Homeostasis
19%
Icosahedral
19%
Molecular Dynamics
18%
Polyhedron
17%
Mesoscopic
16%
Out-of-equilibrium
16%
Engineering
Two Dimensional
46%
Tissue Mechanics
43%
Monolayers
39%
Mechanical Force
39%
Junction Cell
34%
Rheological Behavior
31%
Line Tension
24%
Normal Mode Analysis
24%
Bending Rigidity
24%
Normal Modes
24%
Elastic Membrane
19%
Nonequilibrium
19%
Cell Area
19%
Cell Coordination
19%
Chemical Patterning
19%
Tissue Homeostasis
19%
Dynamical Behavior
19%
Early Stage
19%
Active Cell
14%
Dimensional Space
14%
Neighbor Cell
14%
Degree of Freedom
13%
Vortex
13%
Streamlines
9%
Active System
9%
Amphiphile
9%
Engineering
9%
Modular Design
9%
Opposite Case
9%
Charge Density
9%
Density Fluctuation
9%
Active Particle
9%
Active Agent
9%
Internal Degree
9%
Icosahedral Symmetry
9%
Resolution Cell
9%
Dynamic Range
9%
Gaussians
9%
Equilibrium Phase Diagram
9%
Additional Feature
9%
Overall Response
9%
Oscillatory
9%
DNA-DNA Hybridization
9%
Langevin Dynamic
9%
Pattern Recognition
9%
Superconductor
9%
External Pressure
9%
Mechanical Stress
9%
Anisotropic
9%
Superconductivity
9%