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On an admissible sign of the static dielectric function of matter

O. V. DolgovP. N. Lebedev Physical Institute, Academy of Sciences of the USSR, Moscow, USSRD. A. KirzhnitsP. N. Lebedev Physical Institute, Academy of Sciences of the USSR, Moscow, USSRE. G. MaksimovP. N. Lebedev Physical Institute, Academy of Sciences of the USSR, Moscow, USSR
1981en
ABI

Abstract

This paper is a review of the present status of the problem of the properties of the dielectric function of matter. It is shown that the dielectric function $\ensuremath{\epsilon}(\mathrm{q}, \ensuremath{\omega})$ obeys the Kramers-Kronig relations only when momentum q is identically equal to zero. For an arbitrary momentum $\mathrm{q}\ensuremath{\ne}0$ the dielectric function does not obey the Kramers-Kronig relations, and the static dielectric function at $\mathrm{q}\ensuremath{\ne}0$ may have a negative sign [$\ensuremath{\epsilon}(\mathrm{q}, 0)<0$]. It is shown that the appearance of a negative sign for the static dielectric function does not contradict the requirements of system stability. Special attention is paid to the possible existence of a negative sign for the static dielectric function in real physical systems. It is shown that the inequality $\ensuremath{\epsilon}(\mathrm{q}, 0)<0$ at $\mathrm{q}\ensuremath{\ne}0$ is valid for a rather wide class of condensed media (simple metals, nonideal plasma, etc.). The interrelation between the existence of a negative sign for the dielectric function and the problem of high-temperature superconductivity is briefly discussed.

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