Friction of a driven chain: role of momentum conservation, Goldstone and radiation modes

Das, Debankur; Vink, Richard; Krüger, Matthias

doi:10.1088/1361-648x/ad2b1d

J. Phys.: Condens. Matter

2024

DOI: 10.1088/1361-648x/ad2b1d

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Friction of a driven chain: role of momentum conservation, Goldstone and radiation modes

Debankur Das,

Richard Vink,

Matthias Krüger

Abstract: We analytically study friction and dissipation of a driven bead in a 1D harmonic chain, and analyze the role of internal damping mechanism as well as chain length. Specifically, we investigate Dissipative Particle Dynamics and Langevin Dynamics, as paradigmatic examples that do and do not display translational symmetry, with distinct results: For identical parameters, the friction forces can differ by many orders of magnitude. For slow driving, a Goldstone mode traverses the entire system, resulting in frict… Show more

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Enhancing (quasi-)long-range order in a two-dimensional driven crystal

Maire,

Plati

2024

The Journal of Chemical Physics

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It has been recently shown that 2D systems can exhibit crystalline phases with long-range translational order showcasing a striking violation of the Hohenberg–Mermin–Wagner (HMW) theorem, which is valid at equilibrium. This is made possible by athermal driving mechanisms that inject energy into the system without exciting long wavelength modes of the density field, thereby inducing hyperuniformity. However, as thermal fluctuations are superimposed on the non-equilibrium driving, long-range translational order is inevitably lost. Here, we discuss the possibility of exploiting non-equilibrium effects to suppress arbitrarily large density fluctuations even when a global thermal bath is coupled to the system. We introduce a model of a harmonic crystal driven both by a global thermal bath and by a momentum conserving noise, where the typical observables related to density fluctuations and long-range translational order can be analytically derived and put in relation. This model allows us to rationalize the violation of the HMW theorem observed in previous studies through the prediction of large-wavelength phonons, which thermalize at a vanishing effective temperature when the global bath is switched off. The conceptual framework introduced through this theory is then applied to numerical simulations of a hard-disk solid in contact with a thermal bath and driven out-of-equilibrium by active collisions. Our numerical analysis demonstrates how varying driving and dissipative parameters can lead to an arbitrary enhancement of the quasi-long-range order in the system regardless of the applied global noise amplitude. Finally, we outline a possible experimental procedure to apply our results to a realistic granular system.

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Enhancing (quasi-)long-range order in a two-dimensional driven crystal

Maire,

Plati

2024

The Journal of Chemical Physics

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Friction of a driven chain: role of momentum conservation, Goldstone and radiation modes

Cited by 1 publication

References 46 publications

Enhancing (quasi-)long-range order in a two-dimensional driven crystal

Enhancing (quasi-)long-range order in a two-dimensional driven crystal

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