95,946 research outputs found

    Local Physical Coodinates from Symplectic Projector Method

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    The basic arguments underlying the symplectic projector method are presented. By this method, local free coordinates on the constrait surface can be obtained for a broader class of constrained systems. Some interesting examples are analyzed.Comment: 8 page

    Dynamical instabilities in density-dependent hadronic relativistic models

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    Unstable modes in asymmetric nuclear matter (ANM) at subsaturation densities are studied in the framework of relativistic mean-field density-dependent hadron models. The size of the instabilities that drive the system are calculated and a comparison with results obtained within the non-linear Walecka model is presented. The distillation and anti-distillation effects are discussed.Comment: 8 pages, 8 Postscript figures. Submitted for publication in Phys. Rev.

    Demixing can occur in binary hard-sphere mixtures with negative non-additivity

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    A binary fluid mixture of non-additive hard spheres characterized by a size ratio γ=σ2/σ1<1\gamma=\sigma_2/\sigma_1<1 and a non-additivity parameter Δ=2σ12/(σ1+σ2)1\Delta=2\sigma_{12}/(\sigma_1+\sigma_2)-1 is considered in infinitely many dimensions. From the equation of state in the second virial approximation (which is exact in the limit dd\to\infty) a demixing transition with a critical consolute point at a packing fraction scaling as ηd2d\eta\sim d 2^{-d} is found, even for slightly negative non-additivity, if Δ>1/8(lnγ)2\Delta>-{1/8}(\ln\gamma)^2. Arguments concerning the stability of the demixing with respect to freezing are provided.Comment: 4 pages, 2 figures; title changed; final paragraph added; to be published in PRE as a Rapid Communicatio

    Computer simulation of uniformly heated granular fluids

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    Direct Monte Carlo simulations of the Enskog-Boltzmann equation for a spatially uniform system of smooth inelastic spheres are performed. In order to reach a steady state, the particles are assumed to be under the action of an external driving force which does work to compensate for the collisional loss of energy. Three different types of external driving are considered: (a) a stochastic force, (b) a deterministic force proportional to the particle velocity and (c) a deterministic force parallel to the particle velocity but constant in magnitude. The Enskog-Boltzmann equation in case (b) is fully equivalent to that of the homogeneous cooling state (where the thermal velocity monotonically decreases with time) when expressed in terms of the particle velocity relative to the thermal velocity. Comparison of the simulation results for the fourth cumulant and the high energy tail with theoretical predictions derived in cases (a) and (b) [T. P. C. van Noije and M. H. Ernst, Gran. Matt. 1, 57 (1998)] shows a good agreement. In contrast to these two cases, the deviation from the Maxwell-Boltzmann distribution is not well represented by Sonine polynomials in case (c), even for low dissipation. In addition, the high energy tail exhibits an underpopulation effect in this case.Comment: 18 pages (LaTex), 10 figures (eps); to be published in Granular Matte

    Comment on "Theory and computer simulation for the equation of state of additive hard-disk fluid mixtures"

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    A flaw in the comparison between two different theoretical equations of state for a binary mixture of additive hard disks and Monte Carlo results, as recently reported in C. Barrio and J. R. Solana, Phys. Rev. E 63, 011201 (2001), is pointed out. It is found that both proposals, which require the equation of state of the single component system as input, lead to comparable accuracy but the one advocated by us [A. Santos, S. B. Yuste, and M. L\'{o}pez de Haro, Mol. Phys. 96, 1 (1999)] is simpler and complies with the exact limit in which the small disks are point particles.Comment: 4 pages, including 1 figur
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