Fast sound in two-component liquids

Bosse, J.; Jacucci, Gianni; Ronchetti, Marco; Schirmacher, Walter

doi:10.1103/physrevlett.57.3277

Cited by 106 publications

(85 citation statements)

References 5 publications

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“…Since the pioneer MD simulation of Na-K liquid alloy 1 the majority of studies have been centered on the alloy Li 4 Pb. In a MD simulation of this system Bosse et al 2 observed the existence of high-frequency peaks in the partial Li-Li dynamic structure factors at rather large wave vectors. These peaks were associated with longitudinal modes that propagate through light particles with a velocity much higher than that of the ordinary sound ͑the so-called ''fast sound''͒.…”

Section: Introductionmentioning

confidence: 98%

Longitudinal collective modes in simple liquid binary alloys: A computer simulation study

Anento

Padró

2000

Phys. Rev. B

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The dynamic collective properties of the liquid Li 0.7 -Mg 0.3 alloy are studied by molecular-dynamics simulation. The dynamic structure factors and longitudinal current correlations at wave vectors between the hydrodynamic and kinetic regime (0.2ϽkϽ4 Å Ϫ1 ) are analyzed. In order to discuss the influence of the mass difference between particles on the longitudinal modes, the same alloy, except that the mass of the heavy atoms was increased by a factor of 10, was simulated. The resulting properties are compared with those of the ordinary Li 0.7 -Mg 0.3 alloy. It is shown that at wave vectors prior to the hydrodynamic region both fast and slow longitudinal modes of kinetic character propagate through light and heavy particles, respectively. In the hydrodynamic limit fast and slow modes merge into a single acoustic mode. It is corroborated that fast propagating modes in disparate mass liquid mixtures have a kinetic character. The number-number and concentration-concentration time correlation functions were also determined. The former shows a behavior analogous to that of the corresponding function in one-component liquids. The second reflects the existence of propagating concentration modes.

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Section: Introductionmentioning

confidence: 98%

Longitudinal collective modes in simple liquid binary alloys: A computer simulation study

Anento

Padró

2000

Phys. Rev. B

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“…So far it has not been finally established what is going on with the high-frequency propagating branch in the long-wavelength limit. Hence, the problem of "fast sound" [7] reported in the literature over almost 20 years is still far from being finally solved. It is not also known what is the role of concentration in the damping of high-frequency branch, how the mass ratio affects the width of hydrodynamic region, how will the dispersion law change by decreasing the concentration of relevant species up to the impurity limit.…”

Section: Introductionmentioning

confidence: 99%

Longitudinal Dynamics in a Lennard-Jones Binary Liquid: Crossover From Hydrodynamics to the Molecular Regime

Bryk¹,

Mryglod²

2004

Condens. Matter Phys.

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Longitudinal collective dynamics of an equimolar Lennard-Jones KrAr mixture is studied in detail in a wide range of spatial and time scales. Combining both the molecular dynamics simulations and analytical generalized collective mode approach, we calculated the spectrum of generalized collective excitations and analyzed the dominant dynamic processes that determine the main contributions to time correlation functions in different regions -starting from the hydrodynamic limit and up to the range of the so-called molecular regime. The origin of collective propagating modes as well as the specific features of their dispersion laws within and beyond the hydrodynamic region are established. It is shown that the structural relaxation and processes, connected with mutual diffusion of particles, determine mainly the central peak of total dynamic structure factor beyond the hydrodynamic region. The dispersion laws, obtained for the propagating modes in our analytical approach, are compared with the dispersion curves, estimated from the maxima positions of partial current spectral functions. The difference in these two sets of numerical results is discussed.

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“…On the theoretical side, kinetic theory calculations [18] for two-component fluids with large atomic mass difference, have confirmed the appearance of a collective mode at high frequencies and wave numbers q q h . Moreover, this mode propagated with a phase velocity close to that of the pure light component, which was clearly greater than the hydrodynamic sound velocity, c h , of the two-component system.…”

Section: Introductionmentioning

confidence: 92%

“…It was followed by the CMD results for liquid Li 4 Pb [7], where a new, high-frequency mode, allegedly supported by the light Li atoms only, (the so-called "fast sound") was found. This finding spurred a wealth of experimental [8][9][10][11][12][13], computer simulation [8,[14][15][16][17] and theoretical [18][19][20][21][22] works focused on the investigation of the nature and properties of the collective excitations in liquid binary systems.…”

Section: Introductionmentioning

confidence: 99%

Microscopic dynamics in liquid binary alloys: orbital-free ab-initio molecular dynamics studies

Gonzalez¹

2008

Condens. Matter Phys.

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We report an ab-initio molecular dynamics study on the collective excitations in several s-p bonded liquid binary alloys. Results are reported for the Li-Na, Li-Mg, K-Cs and Li-Ba liquid alloys at different concentrations, which display mass ratios ranging from ≈ 3 for Li-Na to ≈ 20 for Li-Ba, and varying ordering tendencies, ranging from strong homocoordinating in Li-Na to mildly heterocoordinating for one concentration of Li-Ba. The study has been carried out using the orbital free ab-initio molecular dynamics method, combined with local ionic pseudopotentials constructed within the same framework. We analyze the dependence of the collective modes on the concentration and the mass ratio of the alloy, finding a common behaviour for all systems notwithstanding the different ordering tendencies.

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Fast sound in two-component liquids

Cited by 106 publications

References 5 publications

Longitudinal collective modes in simple liquid binary alloys: A computer simulation study

Longitudinal collective modes in simple liquid binary alloys: A computer simulation study

Longitudinal Dynamics in a Lennard-Jones Binary Liquid: Crossover From Hydrodynamics to the Molecular Regime

Microscopic dynamics in liquid binary alloys: orbital-free ab-initio molecular dynamics studies

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