Tagged particle dynamics in supercooled quantum liquids

Ankita Das; Gopika Krishnan; Eran Rabani; Upendra Harbola

doi:10.1103/PhysRevE.105.054136

Tagged particle dynamics in supercooled quantum liquids

Ankita Das, Gopika Krishnan, Eran Rabani, Upendra Harbola

School of Chemistry

Tel Aviv University

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

Abstract

We analyze the dynamics of quantum supercooled liquids in terms of tagged particle dynamics. Unlike the classical case, uncertainty in the position of a particle in quantum liquid leads to qualitative changes. We demonstrate these effects in the dynamics of the first two moments of displacements, namely, the mean-squared displacement, (?r2(t)), and (?r4(t)). Results are presented for a hard-sphere liquid using mode-coupling theory formulation and simulation on a binary Lennard-Jones liquid. As the quantumness (controlled by the de Broglie thermal wavelength) is increased, a nonzero value of the moments at zero time leads to significant deviations from the classical behavior in the initial dynamics. Initial displacement shows ballistic behavior (?r2(t))~t2, but, as a result of large uncertainty in the position, the dynamical effects become weaker with increasing quantumness over this timescale.

Original language	English
Article number	054136
Journal	Physical Review E
Volume	105
Issue number	5
DOIs	https://doi.org/10.1103/PhysRevE.105.054136
State	Published - May 2022

All Science Journal Classification (ASJC) codes

Statistical and Nonlinear Physics
Statistics and Probability
Condensed Matter Physics

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10.1103/PhysRevE.105.054136

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abstract = "We analyze the dynamics of quantum supercooled liquids in terms of tagged particle dynamics. Unlike the classical case, uncertainty in the position of a particle in quantum liquid leads to qualitative changes. We demonstrate these effects in the dynamics of the first two moments of displacements, namely, the mean-squared displacement, (?r2(t)), and (?r4(t)). Results are presented for a hard-sphere liquid using mode-coupling theory formulation and simulation on a binary Lennard-Jones liquid. As the quantumness (controlled by the de Broglie thermal wavelength) is increased, a nonzero value of the moments at zero time leads to significant deviations from the classical behavior in the initial dynamics. Initial displacement shows ballistic behavior (?r2(t))~t2, but, as a result of large uncertainty in the position, the dynamical effects become weaker with increasing quantumness over this timescale.",

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AU - Rabani, Eran

AU - Harbola, Upendra

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Tagged particle dynamics in supercooled quantum liquids

Abstract

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