E2 and gamma distributions in polygonal networks

Ran Li; Consuelo Ibar; Zhenru Zhou; Seyedsajad Moazzeni; Andrew N. Norris; Kenneth D. Irvine; Liping Liu; Hao Lin

doi:10.1103/PhysRevResearch.3.L042001

E² and gamma distributions in polygonal networks

Ran Li, Consuelo Ibar, Zhenru Zhou, Seyedsajad Moazzeni, Andrew N. Norris, Kenneth D. Irvine, Liping Liu, Hao Lin

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

5 Scopus citations

Abstract

From solar supergranulation to salt flats in Bolivia, from veins on leaves to cells on Drosophila wing disks, polygon-based networks exhibit great complexities, yet similarities and consistent patterns emerge. Based on analysis of 99 polygonal tessellations with a wide variety of physical origins, this work demonstrates the ubiquity of an exponential distribution in the squared norm of the deformation tensor , which directly leads to the ubiquitous presence of gamma distributions in the polygon aspect ratio, as recently demonstrated by Atia et al. [Nat. Phys.14, 613 (2018)10.1038/s41567-018-0089-9]. In turn an analytical approach is developed to illustrate its origin. relates to most energy forms, and its Boltzmann-like feature allows the definition of a pseudotemperature that promises utility in a thermodynamic ensemble framework.

Original language	English (US)
Article number	L042001
Journal	Physical Review Research
Volume	3
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevResearch.3.L042001
State	Published - Dec 2021

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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10.1103/PhysRevResearch.3.L042001

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title = "E2 and gamma distributions in polygonal networks",

abstract = "From solar supergranulation to salt flats in Bolivia, from veins on leaves to cells on Drosophila wing disks, polygon-based networks exhibit great complexities, yet similarities and consistent patterns emerge. Based on analysis of 99 polygonal tessellations with a wide variety of physical origins, this work demonstrates the ubiquity of an exponential distribution in the squared norm of the deformation tensor , which directly leads to the ubiquitous presence of gamma distributions in the polygon aspect ratio, as recently demonstrated by Atia et al. [Nat. Phys.14, 613 (2018)10.1038/s41567-018-0089-9]. In turn an analytical approach is developed to illustrate its origin. relates to most energy forms, and its Boltzmann-like feature allows the definition of a pseudotemperature that promises utility in a thermodynamic ensemble framework.",

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AU - Li, Ran

AU - Ibar, Consuelo

AU - Zhou, Zhenru

AU - Moazzeni, Seyedsajad

AU - Norris, Andrew N.

AU - Irvine, Kenneth D.

AU - Liu, Liping

AU - Lin, Hao

PY - 2021/12

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N2 - From solar supergranulation to salt flats in Bolivia, from veins on leaves to cells on Drosophila wing disks, polygon-based networks exhibit great complexities, yet similarities and consistent patterns emerge. Based on analysis of 99 polygonal tessellations with a wide variety of physical origins, this work demonstrates the ubiquity of an exponential distribution in the squared norm of the deformation tensor , which directly leads to the ubiquitous presence of gamma distributions in the polygon aspect ratio, as recently demonstrated by Atia et al. [Nat. Phys.14, 613 (2018)10.1038/s41567-018-0089-9]. In turn an analytical approach is developed to illustrate its origin. relates to most energy forms, and its Boltzmann-like feature allows the definition of a pseudotemperature that promises utility in a thermodynamic ensemble framework.

AB - From solar supergranulation to salt flats in Bolivia, from veins on leaves to cells on Drosophila wing disks, polygon-based networks exhibit great complexities, yet similarities and consistent patterns emerge. Based on analysis of 99 polygonal tessellations with a wide variety of physical origins, this work demonstrates the ubiquity of an exponential distribution in the squared norm of the deformation tensor , which directly leads to the ubiquitous presence of gamma distributions in the polygon aspect ratio, as recently demonstrated by Atia et al. [Nat. Phys.14, 613 (2018)10.1038/s41567-018-0089-9]. In turn an analytical approach is developed to illustrate its origin. relates to most energy forms, and its Boltzmann-like feature allows the definition of a pseudotemperature that promises utility in a thermodynamic ensemble framework.

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E² and gamma distributions in polygonal networks

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