Grain Boundary Scars and Spherical Crystallography

We describe experimental investigations of the structure of two-dimensional spherical crystals. The crystals, formed by beads self-assembled on water droplets in oil, serve as model systems for exploring very general theories about the minimum-energy configurations of particles with arbitrary repuls...

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Published in	Science (American Association for the Advancement of Science) Vol. 299; no. 5613; pp. 1716 - 1718
Main Authors	Bausch, A. R., Bowick, M. J., Cacciuto, A., Dinsmore, A. D., Hsu, M. F., Nelson, D. R., Nikolaides, M. G., Travesset, A., Weitz, D. A.
Format	Journal Article
Language	English
Published	Washington, DC American Association for the Advancement of Science 14.03.2003 The American Association for the Advancement of Science
Subjects	Algorithms Coding Computer Simulation Condensed matter: structure, mechanical and thermal properties Crystal lattices Crystallography Crystals Defects and impurities in crystals; microstructure Energy Exact sciences and technology Geometry Grain and twin boundaries Grain boundaries Ground state Particle interactions Physics Radius of a sphere Research Methodology Scars Scientific Concepts Sphere Spheres Spheres (Geometry) Structure of solids and liquids; crystallography Surfaces (Mathematics) Tests, problems and exercises Triangulation Water Grain boundaries Self-assembly Optical microscopy Spherical crystals Two dimensional structure Models Spherical particle Experimental study High angle grain boundary Structural analysis
Online Access	Get full text
ISSN	0036-8075 1095-9203 1095-9203
DOI	10.1126/science.1081160

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Abstract	We describe experimental investigations of the structure of two-dimensional spherical crystals. The crystals, formed by beads self-assembled on water droplets in oil, serve as model systems for exploring very general theories about the minimum-energy configurations of particles with arbitrary repulsive interactions on curved surfaces. Above a critical system size we find that crystals develop distinctive high-angle grain boundaries, or scars, not found in planar crystals. The number of excess defects in a scar is shown to grow linearly with the dimensionless system size. The observed slope is expected to be universal, independent of the microscopic potential.
AbstractList	We describe experimental investigations of the structure of two-dimensional spherical crystals. The crystals, formed by beads self-assembled on water droplets in oil, serve as model systems for exploring very general theories about the minimum-energy configurations of particles with arbitrary repulsive interactions on curved surfaces. Above a critical system size we find that crystals develop distinctive high-angle grain boundaries, or scars, not found in planar crystals. The number of excess defects in a scar is shown to grow linearly with the dimensionless system size. The observed slope is expected to be universal, independent of the microscopic potential. We describe experimental investigations of the structure of two-dimensional spherical crystals. The crystals, formed by beads serf-assembled on water droplets in oil serve as model systems for exploring very general theories about the minimum-energy configurations of particles with arbitrary repulsive interactions on curved surfaces. Above a critical system size we find that crystals develop distinctive high-angle grain boundaries, or scars, not found in planar crystals. The number of excess defects in a scar is shown to grow linearly with the dimensionless system size. The observed slope is expected to be universal, independent of the microscopic potential We describe experimental investigations of the structure of two-dimensional spherical crystals. The crystals, formed by beads self-assembled on water droplets in oil, serve as model systems for exploring very general theories about the minimum-energy configurations of particles with arbitrary repulsive interactions on curved surfaces. Above a critical system size we find that crystals develop distinctive high-angle grain boundaries, or scars, not found in planar crystals. The number of excess defects in a scar is shown to grow linearly with the dimensionless system size. The observed slope is expected to be universal, independent of the microscopic potential.We describe experimental investigations of the structure of two-dimensional spherical crystals. The crystals, formed by beads self-assembled on water droplets in oil, serve as model systems for exploring very general theories about the minimum-energy configurations of particles with arbitrary repulsive interactions on curved surfaces. Above a critical system size we find that crystals develop distinctive high-angle grain boundaries, or scars, not found in planar crystals. The number of excess defects in a scar is shown to grow linearly with the dimensionless system size. The observed slope is expected to be universal, independent of the microscopic potential.
Audience	Academic
Author	Dinsmore, A. D. Nikolaides, M. G. Weitz, D. A. Hsu, M. F. Nelson, D. R. Bowick, M. J. Bausch, A. R. Cacciuto, A. Travesset, A.
Author_xml	– sequence: 1 givenname: A. R. surname: Bausch fullname: Bausch, A. R. – sequence: 2 givenname: M. J. surname: Bowick fullname: Bowick, M. J. – sequence: 3 givenname: A. surname: Cacciuto fullname: Cacciuto, A. – sequence: 4 givenname: A. D. surname: Dinsmore fullname: Dinsmore, A. D. – sequence: 5 givenname: M. F. surname: Hsu fullname: Hsu, M. F. – sequence: 6 givenname: D. R. surname: Nelson fullname: Nelson, D. R. – sequence: 7 givenname: M. G. surname: Nikolaides fullname: Nikolaides, M. G. – sequence: 8 givenname: A. surname: Travesset fullname: Travesset, A. – sequence: 9 givenname: D. A. surname: Weitz fullname: Weitz, D. A.
BackLink	http://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=14648070$$DView record in Pascal Francis https://www.ncbi.nlm.nih.gov/pubmed/12637740$$D View this record in MEDLINE/PubMed
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Keywords	Grain boundaries Self-assembly Optical microscopy Spherical crystals Two dimensional structure Models Spherical particle Experimental study High angle grain boundary Structural analysis
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References	e_1_3_1_21_2 Delaunay B. (e_1_3_1_22_2) 1934; 7 e_1_3_1_23_2 e_1_3_1_24_2 e_1_3_1_8_2 e_1_3_1_7_2 e_1_3_1_9_2 e_1_3_1_20_2 e_1_3_1_4_2 e_1_3_1_29_2 e_1_3_1_2_3 e_1_3_1_3_2 e_1_3_1_5_2 e_1_3_1_25_2 e_1_3_1_26_2 e_1_3_1_2_2 e_1_3_1_27_2 e_1_3_1_28_2 e_1_3_1_12_3 e_1_3_1_13_2 e_1_3_1_12_2 e_1_3_1_11_2 e_1_3_1_30_2 e_1_3_1_10_2 e_1_3_1_31_2 Hilton P. (e_1_3_1_6_2) 1996; 103 e_1_3_1_17_2 e_1_3_1_16_2 e_1_3_1_15_2 e_1_3_1_14_2 e_1_3_1_19_2 e_1_3_1_18_2 12637724 - Science. 2003 Mar 14;299(5613):1671-3
References_xml	– ident: e_1_3_1_4_2 doi: 10.1038/35024178 – volume: 103 start-page: 121 year: 1996 ident: e_1_3_1_6_2 publication-title: Am. Math. Month. – ident: e_1_3_1_15_2 doi: 10.1038/scientificamerican0184-116 – ident: e_1_3_1_19_2 doi: 10.1002/9780470141571.ch5 – ident: e_1_3_1_27_2 – ident: e_1_3_1_31_2 – ident: e_1_3_1_13_2 doi: 10.1016/S0079-6816(01)00008-9 – volume: 7 start-page: 793 year: 1934 ident: e_1_3_1_22_2 publication-title: Bull. Acad. Sci. USSR Class. Sci. Math. Nat. – ident: e_1_3_1_20_2 – ident: e_1_3_1_30_2 doi: 10.1007/BF03025291 – ident: e_1_3_1_9_2 doi: 10.1007/BF01338394 – ident: e_1_3_1_7_2 – ident: e_1_3_1_2_3 doi: 10.1103/PhysRevB.15.1959 – ident: e_1_3_1_16_2 doi: 10.1007/978-1-4757-6568-7 – ident: e_1_3_1_29_2 doi: 10.1007/978-1-4612-5536-9 – ident: e_1_3_1_5_2 – ident: e_1_3_1_11_2 doi: 10.1016/S0006-3495(93)81313-4 – ident: e_1_3_1_18_2 doi: 10.1103/PhysRevLett.78.2681 – ident: e_1_3_1_12_3 – ident: e_1_3_1_14_2 doi: 10.1128/jb.173.21.6865-6873.1991 – ident: e_1_3_1_3_2 doi: 10.1038/318162a0 – ident: e_1_3_1_17_2 – ident: e_1_3_1_10_2 doi: 10.1101/SQB.1962.027.001.005 – ident: e_1_3_1_23_2 doi: 10.1103/PhysRevB.62.8738 – ident: e_1_3_1_26_2 doi: 10.1103/PhysRevB.60.15628 – ident: e_1_3_1_8_2 doi: 10.1080/14786440409463107 – ident: e_1_3_1_28_2 doi: 10.1103/PhysRevLett.89.185502 – ident: e_1_3_1_24_2 doi: 10.1017/CBO9780511813467 – ident: e_1_3_1_21_2 doi: 10.1126/science.1074868 – ident: e_1_3_1_25_2 doi: 10.1103/PhysRevB.55.3816 – ident: e_1_3_1_2_2 – ident: e_1_3_1_12_2 doi: 10.1128/JVI.75.24.11943-11947.2001 – reference: 12637724 - Science. 2003 Mar 14;299(5613):1671-3
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Snippet	We describe experimental investigations of the structure of two-dimensional spherical crystals. The crystals, formed by beads self-assembled on water droplets... We describe experimental investigations of the structure of two-dimensional spherical crystals. The crystals, formed by beads serf-assembled on water droplets...
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SubjectTerms	Algorithms Coding Computer Simulation Condensed matter: structure, mechanical and thermal properties Crystal lattices Crystallography Crystals Defects and impurities in crystals; microstructure Energy Exact sciences and technology Geometry Grain and twin boundaries Grain boundaries Ground state Particle interactions Physics Radius of a sphere Research Methodology Scars Scientific Concepts Sphere Spheres Spheres (Geometry) Structure of solids and liquids; crystallography Surfaces (Mathematics) Tests, problems and exercises Triangulation Water
Title	Grain Boundary Scars and Spherical Crystallography
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