Nonergodicity parameters of confined hard-sphere glasses

Mandal, Suvendu; Lang, Simon; Boţan, Vitalie; Franosch, Thomas

doi:10.1039/c7sm00905d

Cited by 22 publications

(52 citation statements)

References 89 publications

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“…Furthermore, there is a pronounced nonmonotonic dependence of the free energy on the wall separation H. In Refs. [4,6], a similar nonmonotonic behavior in the structure factor was explained with commensurate and incommensurate packings. Commensurate packing describes the favorable packing of spheres in k layers for wall separations H/σ ≈ k, k ∈ N, whereas incommensurate packing relates to wall separations close to half-integer values.…”

Section: Fundamental Measure Theorymentioning

confidence: 57%

“…However, the onset of ordering can already be seen in standard EDMD simulations of hard spheres in confinement (see the long-wavelength peak in the structure factor for H = 2.30σ shown in Ref. [4]).…”

Section: Stability Diagram In Slab Geometriesmentioning

confidence: 87%

“…II A. Without the use of this algorithm, nucleation would be too slow to observe crystallization within a reasonable computing time [4,6]. However, the onset of ordering can already be seen in standard EDMD simulations of hard spheres in confinement (see the long-wavelength peak in the structure factor for H = 2.30σ shown in Ref.…”

Section: Stability Diagram In Slab Geometriesmentioning

confidence: 99%

“…Confinement occurs naturally in many physical, chemical, and biological systems, such as nanotubes, porous rocks, or crowded living cells. Even for the simplest case of monodisperse hard spheres confined between parallel hard walls one observes spatially inhomogeneous density profiles and diffusivities [1,2], anisotropic structure factors [3,4], multiplereentrant glass transitions [5,6] and solid-to-solid transitions between different crystalline phases [7][8][9][10]. Confinement has also been reported to have a strong impact on the structural relaxation of supercooled liquids [6,11,12] since it restricts the range of accessible length scales, which becomes increasingly important as the glass transition is approached [11].…”

Section: Introductionmentioning

confidence: 99%

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Confinement-induced demixing and crystallization

Jung

Petersen

2020

Phys. Rev. Research

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We simulate a strongly size-disperse hard-sphere fluid confined between two parallel hard walls. We find that confinement induces crystallization into n-layered hexagonal lattices and a novel honeycomb-shaped structure, facilitated by fractionation. The onset of freezing prevents the formation of a stable glass phase and occurs at much smaller packing fraction than in bulk. Varying the wall separation triggers solid-to-solid transitions and a systematic change in the size distribution of crystalline particles, which we rationalize using a semiquantitative theory. We show that the crystallization can be exploited in a wedge geometry to demix particles of different sizes.

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Section: Fundamental Measure Theorymentioning

confidence: 57%

Section: Stability Diagram In Slab Geometriesmentioning

confidence: 87%

Section: Stability Diagram In Slab Geometriesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Confinement-induced demixing and crystallization

Jung

Petersen

2020

Phys. Rev. Research

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“…The nonequilibrium state diagram within MCT has been obtained [44,115] by scanning the parameter space (ϕ, H = L + σ) taking the structural input obtained from the inhomogeneous Percus-Yevick closure [67,[127][128][129], see Figure 11. The result demonstrates a striking multiple reentrant behavior.…”

Section: Comparison To Computer Simulationsmentioning

confidence: 99%

Complex dynamics induced by strong confinement – From tracer diffusion in strongly heterogeneous media to glassy relaxation of dense fluids in narrow slits

Mandal

Spanner-Denzer

Leitmann

et al. 2017

Eur. Phys. J. Spec. Top.

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Abstract. We provide an overview of recent advances of the complex dynamics of particles in strong confinements. The first paradigm is the Lorentz model where tracers explore a quenched disordered host structure. Such systems naturally occur as limiting cases of binary glassforming systems if the dynamics of one component is much faster than the other. For a certain critical density of the host structure the tracers undergo a localization transition which constitutes a critical phenomenon. A series of predictions in the vicinity of the transition have been elaborated and tested versus computer simulations. Analytical progress is achieved for small obstacle densities. The second paradigm is a dense strongly interacting liquid confined to a narrow slab. Then the glass transition depends nonmonotonically on the separation of the plates due to an interplay of local packing and layering. Very small slab widths allow to address certain features of the statics and dynamics analytically.

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Noether’s theorem in statistical mechanics

2021

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Noether’s calculus of invariant variations yields exact identities from functional symmetries. The standard application to an action integral allows to identify conservation laws. Here we rather consider generating functionals, such as the free energy and the power functional, for equilibrium and driven many-body systems. Translational and rotational symmetry operations yield mechanical laws. These global identities express vanishing of total internal and total external forces and torques. We show that functional differentiation then leads to hierarchies of local sum rules that interrelate density correlators as well as static and time direct correlation functions, including memory. For anisotropic particles, orbital and spin motion become systematically coupled. The theory allows us to shed new light on the spatio-temporal coupling of correlations in complex systems. As applications we consider active Brownian particles, where the theory clarifies the role of interfacial forces in motility-induced phase separation. For active sedimentation, the center-of-mass motion is constrained by an internal Noether sum rule.

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Nonergodicity parameters of confined hard-sphere glasses

Cited by 22 publications

References 89 publications

Confinement-induced demixing and crystallization

Confinement-induced demixing and crystallization

Complex dynamics induced by strong confinement – From tracer diffusion in strongly heterogeneous media to glassy relaxation of dense fluids in narrow slits

Noether’s theorem in statistical mechanics

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