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Atomic dynamics in fluids: Normal mode analysis revisited

Jaeyun Moon, Lucas Lindsay, T. Egami

2023Physical review. E12 citationsDOIOpen Access PDF

Abstract

Developing microscopic understanding of the thermal properties of liquids is challenging due to their strong dynamic disorder, which prevents characterization of the atomic degrees of freedom. There have been significant research interests in the past few decades to extend the normal mode analysis for solids to instantaneous structures of liquids. However, the nature of normal modes that arise from these unstable structures is still elusive. In this paper, we explore the instantaneous eigenmodes of dynamical matrices of various Lennard-Jones argon liquid and gas systems at high temperatures and show that the normal modes can be interpreted as an interpolation of T→∞ (gas) and T=0 (solid) mode descriptions. We find that normal modes become increasingly collisional and translational, recovering atomistic gaslike behavior rather than vibrational with increase in temperature, suggesting that normal modes in liquids may be described by both solidlike and gaslike modes.

Topics & Concepts

Normal modeDegrees of freedom (physics and chemistry)Mode (computer interface)Interpolation (computer graphics)PhysicsThermalMolecular vibrationMolecular dynamicsStatistical physicsClassical mechanicsQuantum mechanicsVibrationThermodynamicsComputer scienceMoleculeMotion (physics)Operating systemSpectroscopy and Quantum Chemical StudiesQuantum, superfluid, helium dynamicsMaterial Dynamics and Properties
Atomic dynamics in fluids: Normal mode analysis revisited | Litcius