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Main Authors: Santra, Saikat, Touzo, Leo, Dasgupta, Chandan, Dhar, Abhishek, Dutta, Suman, Kundu, Anupam, Doussal, Pierre Le, Schehr, Gregory, Singh, Prashant
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2411.13478
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author Santra, Saikat
Touzo, Leo
Dasgupta, Chandan
Dhar, Abhishek
Dutta, Suman
Kundu, Anupam
Doussal, Pierre Le
Schehr, Gregory
Singh, Prashant
author_facet Santra, Saikat
Touzo, Leo
Dasgupta, Chandan
Dhar, Abhishek
Dutta, Suman
Kundu, Anupam
Doussal, Pierre Le
Schehr, Gregory
Singh, Prashant
contents We consider a one-dimensional system comprising of $N$ run-and-tumble particles confined in a harmonic trap interacting via a repulsive inverse-square power-law interaction. We numerically compute the global density profile in the steady state which shows interesting crossovers between three different regimes: as the activity increases, we observe a change from a density with sharp peaks characteristic of a crystal region to a smooth bell-shaped density profile, passing through the intermediate stage of a smooth Wigner semi-circle characteristic of a liquid phase. We also investigate analytically the crossover between the crystal and the liquid regions by computing the covariance of the positions of these particles in the steady state in the weak noise limit. It is achieved by using the method introduced in Touzo {\it et al.} [Phys. Rev. E {\bf 109}, 014136 (2024)] to study the active Dyson Brownian motion. Our analytical results are corroborated by thorough numerical simulations.
format Preprint
id arxiv_https___arxiv_org_abs_2411_13478
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Crystal to liquid cross-over for active particles with inverse-square power-law interaction
Santra, Saikat
Touzo, Leo
Dasgupta, Chandan
Dhar, Abhishek
Dutta, Suman
Kundu, Anupam
Doussal, Pierre Le
Schehr, Gregory
Singh, Prashant
Statistical Mechanics
Soft Condensed Matter
We consider a one-dimensional system comprising of $N$ run-and-tumble particles confined in a harmonic trap interacting via a repulsive inverse-square power-law interaction. We numerically compute the global density profile in the steady state which shows interesting crossovers between three different regimes: as the activity increases, we observe a change from a density with sharp peaks characteristic of a crystal region to a smooth bell-shaped density profile, passing through the intermediate stage of a smooth Wigner semi-circle characteristic of a liquid phase. We also investigate analytically the crossover between the crystal and the liquid regions by computing the covariance of the positions of these particles in the steady state in the weak noise limit. It is achieved by using the method introduced in Touzo {\it et al.} [Phys. Rev. E {\bf 109}, 014136 (2024)] to study the active Dyson Brownian motion. Our analytical results are corroborated by thorough numerical simulations.
title Crystal to liquid cross-over for active particles with inverse-square power-law interaction
topic Statistical Mechanics
Soft Condensed Matter
url https://arxiv.org/abs/2411.13478