Origin of Noncubic Scaling Law in Disordered Granular Packing

Chengjie Xia; Jindong Li; Binquan Kou; Yixin Cao; Zhifeng Li; Xianghui Xiao; Yanan Fu; Tiqiao Xiao; Liang Hong; Jie Zhang; Walter Kob; Yujie Wang

doi:10.1103/PhysRevLett.118.238002

Origin of Noncubic Scaling Law in Disordered Granular Packing

Chengjie Xia
, Jindong Li
, Binquan Kou
, Yixin Cao
, Zhifeng Li
, Xianghui Xiao
, Yanan Fu
, Tiqiao Xiao
, Liang Hong
, Jie Zhang
, Walter Kob
, Yujie Wang^*

^*Corresponding author for this work

Shanghai Jiao Tong University
United States Department of Energy
Chinese Academy of Sciences
Université Montpellier II

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

18 Scopus citations

Abstract

Recent diffraction experiments on metallic glasses have unveiled an unexpected noncubic scaling law between density and average interatomic distance, which led to the speculation of the presence of fractal glass order. Using x-ray tomography we identify here a similar noncubic scaling law in disordered granular packing of spherical particles. We find that the scaling law is directly related to the contact neighbors within the first nearest neighbor shell, and, therefore, is closely connected to the phenomenon of jamming. The seemingly universal scaling exponent around 2.5 arises due to the isostatic condition with a contact number around 6, and we argue that the exponent should not be universal.

Original language	English
Article number	238002
Journal	Physical Review Letters
Volume	118
Issue number	23
DOIs	https://doi.org/10.1103/PhysRevLett.118.238002
State	Published - 9 Jun 2017
Externally published	Yes

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10.1103/PhysRevLett.118.238002

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title = "Origin of Noncubic Scaling Law in Disordered Granular Packing",

abstract = "Recent diffraction experiments on metallic glasses have unveiled an unexpected noncubic scaling law between density and average interatomic distance, which led to the speculation of the presence of fractal glass order. Using x-ray tomography we identify here a similar noncubic scaling law in disordered granular packing of spherical particles. We find that the scaling law is directly related to the contact neighbors within the first nearest neighbor shell, and, therefore, is closely connected to the phenomenon of jamming. The seemingly universal scaling exponent around 2.5 arises due to the isostatic condition with a contact number around 6, and we argue that the exponent should not be universal.",

author = "Chengjie Xia and Jindong Li and Binquan Kou and Yixin Cao and Zhifeng Li and Xianghui Xiao and Yanan Fu and Tiqiao Xiao and Liang Hong and Jie Zhang and Walter Kob and Yujie Wang",

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T1 - Origin of Noncubic Scaling Law in Disordered Granular Packing

AU - Xia, Chengjie

AU - Li, Jindong

AU - Kou, Binquan

AU - Cao, Yixin

AU - Li, Zhifeng

AU - Xiao, Xianghui

AU - Fu, Yanan

AU - Xiao, Tiqiao

AU - Hong, Liang

AU - Zhang, Jie

AU - Kob, Walter

AU - Wang, Yujie

PY - 2017/6/9

Y1 - 2017/6/9

N2 - Recent diffraction experiments on metallic glasses have unveiled an unexpected noncubic scaling law between density and average interatomic distance, which led to the speculation of the presence of fractal glass order. Using x-ray tomography we identify here a similar noncubic scaling law in disordered granular packing of spherical particles. We find that the scaling law is directly related to the contact neighbors within the first nearest neighbor shell, and, therefore, is closely connected to the phenomenon of jamming. The seemingly universal scaling exponent around 2.5 arises due to the isostatic condition with a contact number around 6, and we argue that the exponent should not be universal.

AB - Recent diffraction experiments on metallic glasses have unveiled an unexpected noncubic scaling law between density and average interatomic distance, which led to the speculation of the presence of fractal glass order. Using x-ray tomography we identify here a similar noncubic scaling law in disordered granular packing of spherical particles. We find that the scaling law is directly related to the contact neighbors within the first nearest neighbor shell, and, therefore, is closely connected to the phenomenon of jamming. The seemingly universal scaling exponent around 2.5 arises due to the isostatic condition with a contact number around 6, and we argue that the exponent should not be universal.

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DO - 10.1103/PhysRevLett.118.238002

M3 - 文章

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SN - 0031-9007

VL - 118

JO - Physical Review Letters

JF - Physical Review Letters

IS - 23

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ER -

Origin of Noncubic Scaling Law in Disordered Granular Packing

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