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    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.

    Hamilton-Jacobi Approach for Power-Law Potentials

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    The classical and relativistic Hamilton-Jacobi approach is applied to the one-dimensional homogeneous potential, V(q)=αqnV(q)=\alpha q^n, where α\alpha and nn are continuously varying parameters. In the non-relativistic case, the exact analytical solution is determined in terms of α\alpha, nn and the total energy EE. It is also shown that the non-linear equation of motion can be linearized by constructing a hypergeometric differential equation for the inverse problem t(q)t(q). A variable transformation reducing the general problem to that one of a particle subjected to a linear force is also established. For any value of nn, it leads to a simple harmonic oscillator if E>0E>0, an "anti-oscillator" if E<0E<0, or a free particle if E=0. However, such a reduction is not possible in the relativistic case. For a bounded relativistic motion, the first order correction to the period is determined for any value of nn. For n>>1n >> 1, it is found that the correction is just twice that one deduced for the simple harmonic oscillator (n=2n=2), and does not depend on the specific value of nn.Comment: 12 pages, Late
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