Abstract
We have studied phonon and thermodynamic properties of a body-centered cubic (bcc) Coulomb crystal of ions with weakly polarized electron background in a uniform magnetic field B. At B = 0, the difference between phonon moments calculated using the Thomas-Fermi (TF) and random phase approximations is always less than 1% and for description of phonon properties of a crystal, TF formalism was used. This formalism was successfully applied to investigate thermodynamic properties of magnetized Coulomb crystals. It was shown that the influence of the polarization of the electron background is significant only at κTFa>0.1 and T≪Tp(1+h2)−1/2, where κTF is the Thomas-Fermi wavenumber, a is the ion sphere radius, Tp≡ℏωp is the ion plasma temperature, h≡ωB/ωp, ωB is the ion cyclotron frequency, and ωp is the ion plasma frequency.
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