Ordering in dense packings

Ordering in dense packings

We examine various models of soft matter, and one model of quasicrystals, focusing on abrupt changes as density is varied. We consider in detail two models, one of granular matter and another of confined wires, showing that the models become ordered as density is increased, with crystalline order ob...

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Bibliographic Details
Main Author: Aristoff, David Gregory
Format: Others
Language:English
Published: 2011
Subjects:
Statistical mechanics
Phase transition
Sphere packing
Soft matter
Crystalline
Granular matter
Quasicrystals
Online Access:http://hdl.handle.net/2152/ETD-UT-2011-05-2800
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spelling ndltd-UTEXAS-oai-repositories.lib.utexas.edu-2152-ETD-UT-2011-05-28002015-09-20T17:00:09ZOrdering in dense packingsAristoff, David GregoryStatistical mechanicsPhase transitionSphere packingSoft matterCrystallineGranular matterQuasicrystalsWe examine various models of soft matter, and one model of quasicrystals, focusing on abrupt changes as density is varied. We consider in detail two models, one of granular matter and another of confined wires, showing that the models become ordered as density is increased, with crystalline order observed in the former and nematic order observed in the latter. We associate the phenomenon of random close packing with the onset of crystalline order in our granular model, and we conjecture that crumpled wires should exhibit a nematic transition with increasing compaction. We also consider two other models of granular matter: one which describes dilatancy onset as a second order phase transition, and one which describes random loose packing as a precise, well- defined density. Finally, we examine an equilibrium model of quasicrystals with a first order phase transition to a solid phase without any crystalline order.text2011-06-16T16:44:50Z2011-06-16T16:45:10Z2011-06-16T16:44:50Z2011-06-16T16:45:10Z2011-052011-06-16May 20112011-06-16T16:45:10Zthesisapplication/pdfhttp://hdl.handle.net/2152/ETD-UT-2011-05-2800eng
collection NDLTD
language English
format Others
sources NDLTD
topic Statistical mechanics
Phase transition
Sphere packing
Soft matter
Crystalline
Granular matter
Quasicrystals
spellingShingle Statistical mechanics
Phase transition
Sphere packing
Soft matter
Crystalline
Granular matter
Quasicrystals
Aristoff, David Gregory
Ordering in dense packings
description We examine various models of soft matter, and one model of quasicrystals, focusing on abrupt changes as density is varied. We consider in detail two models, one of granular matter and another of confined wires, showing that the models become ordered as density is increased, with crystalline order observed in the former and nematic order observed in the latter. We associate the phenomenon of random close packing with the onset of crystalline order in our granular model, and we conjecture that crumpled wires should exhibit a nematic transition with increasing compaction. We also consider two other models of granular matter: one which describes dilatancy onset as a second order phase transition, and one which describes random loose packing as a precise, well- defined density. Finally, we examine an equilibrium model of quasicrystals with a first order phase transition to a solid phase without any crystalline order. === text
author Aristoff, David Gregory
author_facet Aristoff, David Gregory
author_sort Aristoff, David Gregory
title Ordering in dense packings
title_short Ordering in dense packings
title_full Ordering in dense packings
title_fullStr Ordering in dense packings
title_full_unstemmed Ordering in dense packings
title_sort ordering in dense packings
publishDate 2011
url http://hdl.handle.net/2152/ETD-UT-2011-05-2800
work_keys_str_mv AT aristoffdavidgregory orderingindensepackings
_version_ 1716821666522202112

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