Litcius/Paper detail

Connecting Packing Efficiency of Binary Hard Sphere Systems to Their Intermediate Range Structure

Houfei Yuan, Zhen Zhang, Walter Kob, Yujie Wang

2021Physical Review Letters20 citationsDOIOpen Access PDF

Abstract

Using computed x-ray tomography we determine the three dimensional (3D) structure of binary hard sphere mixtures as a function of composition and size ratio of the particles q. Using a recently introduced four-point correlation function we reveal that this 3D structure has on intermediate and large length scales a surprisingly regular order, the symmetry of which depends on q. The related structural correlation length has a minimum at the composition at which the packing fraction is highest. At this composition also the number of different local particle arrangements has a maximum, indicating that efficient packing of particles is associated with a structure that is locally maximally disordered.

Topics & Concepts

Atomic packing factorBinary numberFunction (biology)Sphere packingRange (aeronautics)Correlation function (quantum field theory)Particle (ecology)Symmetry (geometry)PhysicsComposition (language)Materials scienceHard spheresClose-packing of equal spheresStatistical physicsCondensed matter physicsParticle sizeRadial distribution functionSPHERESFraction (chemistry)Pair distribution functionMolecular physicsCorrelationSymmetry breakingRotational symmetryBinary systemMaterial Dynamics and PropertiesPhase Equilibria and ThermodynamicsPickering emulsions and particle stabilization