مشخصات پژوهش

صفحه نخست /Hydrodynamic limit of ...
عنوان
Hydrodynamic limit of Wigner-Poisson kinetic theory: Revisited
نوع پژوهش مقاله چاپ شده
کلیدواژه‌ها
Quantum Plasmas, Hydrodynamic Theory
چکیده
In this paper, we rev isit the hydrodynamic limit of the Langmuir wave dispersion relation based on the Wigner- Poisson model in connection wit h that obt ained directl y from the original Lindhard dielectric function based on the random- phase-approximat ion. It is observed that the (fourth-order) expansion of the exact Lindha rd dielectr ic const ant correctly reduces to the hydrodynamic dispersion relation with an additional term of fo urth-order, beside that caused by the quantum diffraction effect. It is also revealed that the generalized Lindhard dielectr ic theory accounts for the recently discovere d Shukla-Eliass on attractive potential (SEAP). Howev er, the expansion of the exact Lindhard static dielectric function leads to a k4 term of different magnitude than that obtained from the linearized quantum hydrodynamics model. It is shown that a correction factor of 1/9 should be included in the term arising from the quantum Bohm potential of the momentum balance equation in fluid model in order for a correct plasma dielectric response treatment. Finally, it is observed that the long-range oscillatory screening potential (Friedel oscillations) of type cos ð2kFrÞ =r3, which is a consequence of the divergence of the dielectric function at point k ¼ 2kF in a quantum plasma, arises due to the finiteness of the Fermi-wavenumber and is smeared out in the limit of very high electron number-densities, typical of white dwarfs and neutron stars. In the very low electron number-density regime, typical of semiconductors and metals, where the Friedel oscillation wavelength becomes much larger compared to the interparticle distances, the SEAP appears with a much deeper potential valley. It is remarked that the fourth-order approximate Lindhard dielectric constant approaches that of the linearized quantum hydrodynamic in the limit if very high electron number-density. By evaluation of the imaginary part of the Lindhard dielectric function, it is shown that the Landau-damping
پژوهشگران مسعود اکبری مغانجوقی (نفر اول)