Direct manipulation of diffusion in colloidal glasses via controlled generation of quasi-particle-like defects

Yi Di Wang; Chu Xiao; Anupam Kumar; Yun Hong Shi; Chun Shing Lee; King Cheong Lam; Man Kin Fung; Chor Hoi Chan; Yuen Hong Tsang; Bo Li; Chi Hang Lam; Cho Tung Yip

doi:10.1103/PhysRevE.110.064603

Direct manipulation of diffusion in colloidal glasses via controlled generation of quasi-particle-like defects

Yi Di Wang, Chu Xiao, Anupam Kumar, Yun Hong Shi, Chun Shing Lee, King Cheong Lam, Man Kin Fung, Chor Hoi Chan, Yuen Hong Tsang, Bo Li, Chi Hang Lam, Cho Tung Yip

Construction and Quality Management

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Abstract

We experimentally manipulate the structural relaxation of colloidal glass at an atomistically controlled position. We focus a laser beam to eject a particle from the colloidal system. This creates a void that transforms rapidly into a mobile soft spot (quasivoid) composed of a few neighboring free-volume fragments. The transformation and subsequent motions of the quasivoid trigger a sequence of well-connected stringlike motions emanating precisely from the point of laser action with free volumes flowing along the string. Furthermore, the sequence can be terminated by the annihilation of the quasivoid. The observations are supported by molecular dynamics (MD) simulations.

Original language	English
Article number	064603
Journal	Physical Review E
Volume	110
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevE.110.064603
Publication status	Published - Dec 2024

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10.1103/PhysRevE.110.064603

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title = "Direct manipulation of diffusion in colloidal glasses via controlled generation of quasi-particle-like defects",

abstract = "We experimentally manipulate the structural relaxation of colloidal glass at an atomistically controlled position. We focus a laser beam to eject a particle from the colloidal system. This creates a void that transforms rapidly into a mobile soft spot (quasivoid) composed of a few neighboring free-volume fragments. The transformation and subsequent motions of the quasivoid trigger a sequence of well-connected stringlike motions emanating precisely from the point of laser action with free volumes flowing along the string. Furthermore, the sequence can be terminated by the annihilation of the quasivoid. The observations are supported by molecular dynamics (MD) simulations.",

author = "Wang, {Yi Di} and Chu Xiao and Anupam Kumar and Shi, {Yun Hong} and Lee, {Chun Shing} and Lam, {King Cheong} and Fung, {Man Kin} and Chan, {Chor Hoi} and Tsang, {Yuen Hong} and Bo Li and Lam, {Chi Hang} and Yip, {Cho Tung}",

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AU - Wang, Yi Di

AU - Xiao, Chu

AU - Kumar, Anupam

AU - Shi, Yun Hong

AU - Lee, Chun Shing

AU - Lam, King Cheong

AU - Fung, Man Kin

AU - Chan, Chor Hoi

AU - Tsang, Yuen Hong

AU - Li, Bo

AU - Lam, Chi Hang

AU - Yip, Cho Tung

PY - 2024/12

Y1 - 2024/12

N2 - We experimentally manipulate the structural relaxation of colloidal glass at an atomistically controlled position. We focus a laser beam to eject a particle from the colloidal system. This creates a void that transforms rapidly into a mobile soft spot (quasivoid) composed of a few neighboring free-volume fragments. The transformation and subsequent motions of the quasivoid trigger a sequence of well-connected stringlike motions emanating precisely from the point of laser action with free volumes flowing along the string. Furthermore, the sequence can be terminated by the annihilation of the quasivoid. The observations are supported by molecular dynamics (MD) simulations.

AB - We experimentally manipulate the structural relaxation of colloidal glass at an atomistically controlled position. We focus a laser beam to eject a particle from the colloidal system. This creates a void that transforms rapidly into a mobile soft spot (quasivoid) composed of a few neighboring free-volume fragments. The transformation and subsequent motions of the quasivoid trigger a sequence of well-connected stringlike motions emanating precisely from the point of laser action with free volumes flowing along the string. Furthermore, the sequence can be terminated by the annihilation of the quasivoid. The observations are supported by molecular dynamics (MD) simulations.

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VL - 110

JO - Physical Review E

JF - Physical Review E

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ER -

Direct manipulation of diffusion in colloidal glasses via controlled generation of quasi-particle-like defects

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