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RESEARCH

Soft Matter Physics & Complex Systems
Research Areas
Astrophysics & Fundamental Physics
Biological Physics
Condensed Matter Physics
Experimental Particle Physics
Materials Science
Quantum Physics & Optics
Soft Matter Physics & Complex Systems
Other Areas
Centralized Facilities
Research Centres
Research Areas
Astrophysics & Fundamental Physics
Biological Physics
Condensed Matter Physics
Experimental Particle Physics
Materials Science
Quantum Physics & Optics
Soft Matter Physics & Complex Systems
Other Areas
Centralized Facilities
Research Centres

Soft Matter Physics & Complex Systems

Bubbly Flows and Turbulence

Study the bubble dynamics in various systems, e.g. in water electrolysis and in turbulence. Study how bubbles affect the mixing of scalar field in turbulence. 
(O.Y. Dung)

Complex Systems

Reconstruction of networks from dynamics and relation between structure and dynamics. Agent-based models of complex systems, physics of complex networks, dynamical processes in complex networks. Complex adaptive system. 
(Emily S.C. Ching | P.M. Hui | O.Y. Dung)

Complexity Science and Physics of Social Systems

Complex adaptive system. Social tipping dynamics. Modelling behavioural dynamics. Applications of networks on the adoption and maintenance of the use wearables for health monitoring.
(O.Y. Dung)

Fluid and Complex Fluids Experiment

Study the origin of liquid drop splashing, multiphase flow in porous medium, colloidal crystallization and colloidal glass. Study the bubble dynamics in water electrolysis.
(L. Xu | O.Y. Dung)

Non-equilibrium Physics of Active Matter

We seek to understand the self-organization dynamics of active matter. Active matter systems spend energy locally to produce mechanical work; they include all living things and synthetic self-driven materials. Investigations in the field will fuel the development of statistical physics in far-from-equilibrium systems, will advance the understanding of the physics of life, and may provide guidance for engineering self-driven and stimulus-responsive materials.
(Y.L. Wu)

Theoretical Study of Fluid Turbulence

Theoretical study of fluid turbulence especially thermally-driven turbulent flows. Boundary layer theory, heat transport, and effect of polymers on heat transport. Scaling and intermittency, statistics and coherent structures.
(Emily S.C. Ching)