Self-referential order

T. Asteabc; P. Butlerb; T. Di Matteod

doi:10.1080/14786435.2013.835495

Self-referential order

T. Asteabc^*, P. Butlerb, T. Di Matteod

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

We introduce the concept of self-referential order which provides a way to quantify structural organization in non-crystalline materials. The key idea consists in the observation that, in a disordered system, where there is no ideal, reference, template structure, each sub-portion of the whole structure can be taken as reference for the rest and the system can be described in terms of its parts in a selfreferential way. Some parts carry larger information about the rest of the structure and they are identified as motifs.We discuss howthis method can efficiently reduce the amount of information required to describe a complex disordered structure by encoding it in a set of motifs and matching rules.We propose an informationtheoretic approach to define a self-referential-order-parameter and we show that, by means of entropic measures, such a parameter can be quantified explicitly. A proof of concept application to equal disk packing is presented and discussed.

Original language	English
Pages (from-to)	3983-3992
Number of pages	10
Journal	Philosophical Magazine
Volume	93
Issue number	31-33
DOIs	https://doi.org/10.1080/14786435.2013.835495
Publication status	Published - 2013
Externally published	Yes

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10.1080/14786435.2013.835495

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title = "Self-referential order",

abstract = "We introduce the concept of self-referential order which provides a way to quantify structural organization in non-crystalline materials. The key idea consists in the observation that, in a disordered system, where there is no ideal, reference, template structure, each sub-portion of the whole structure can be taken as reference for the rest and the system can be described in terms of its parts in a selfreferential way. Some parts carry larger information about the rest of the structure and they are identified as motifs.We discuss howthis method can efficiently reduce the amount of information required to describe a complex disordered structure by encoding it in a set of motifs and matching rules.We propose an informationtheoretic approach to define a self-referential-order-parameter and we show that, by means of entropic measures, such a parameter can be quantified explicitly. A proof of concept application to equal disk packing is presented and discussed.",

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T1 - Self-referential order

AU - Asteabc, T.

AU - Butlerb, P.

AU - Di Matteod, T.

PY - 2013

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N2 - We introduce the concept of self-referential order which provides a way to quantify structural organization in non-crystalline materials. The key idea consists in the observation that, in a disordered system, where there is no ideal, reference, template structure, each sub-portion of the whole structure can be taken as reference for the rest and the system can be described in terms of its parts in a selfreferential way. Some parts carry larger information about the rest of the structure and they are identified as motifs.We discuss howthis method can efficiently reduce the amount of information required to describe a complex disordered structure by encoding it in a set of motifs and matching rules.We propose an informationtheoretic approach to define a self-referential-order-parameter and we show that, by means of entropic measures, such a parameter can be quantified explicitly. A proof of concept application to equal disk packing is presented and discussed.

AB - We introduce the concept of self-referential order which provides a way to quantify structural organization in non-crystalline materials. The key idea consists in the observation that, in a disordered system, where there is no ideal, reference, template structure, each sub-portion of the whole structure can be taken as reference for the rest and the system can be described in terms of its parts in a selfreferential way. Some parts carry larger information about the rest of the structure and they are identified as motifs.We discuss howthis method can efficiently reduce the amount of information required to describe a complex disordered structure by encoding it in a set of motifs and matching rules.We propose an informationtheoretic approach to define a self-referential-order-parameter and we show that, by means of entropic measures, such a parameter can be quantified explicitly. A proof of concept application to equal disk packing is presented and discussed.

KW - Disordered structure

KW - Information theory

KW - Order

KW - Self-referential order

KW - Structural encoding

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DO - 10.1080/14786435.2013.835495

M3 - Article

SN - 1478-6435

VL - 93

SP - 3983

EP - 3992

JO - Philosophical Magazine

JF - Philosophical Magazine

IS - 31-33

ER -

Self-referential order

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