A. N. Kondratenko scite author profile

Propagation of electromagnetic surface waves in an infinite plasma layer is examined in kinetic approximation. The problem is solved with the Fourier method. The dispersion equation obtained is investigated (a) for high-frequency oscillations in which the average thermal velocity of the electrons υTe and of the ions υTi is much smaller than the phase velocity of wave V Φ; and (b) for low-frequency oscillations (ion-acoustic waves) in which υTe≫ VΦ≫ υTi For high-frequency oscillations, wave damping is proportional to υTe, and not exponentially small as it is for a volume wave in an infinite plasma. As is known, damping of an ion-acoustic volume wave in an infinite plasma is caused by plasma electrons, and the ion contribution to damping is exponentially small if V Φ≪ υTi. In the case of an ion-acoustic surface wave, a large and sometimes even fundamental contribution to damping is made by plasma ions whose damping fraction is proportional to υTi. The reason for so large a damping in both high-frequency and low-frequency waves is Cerenkov absorption of the wave energy by plasma particles that is particularly considerable in the short-wave components of the Fourier expansion of the surface wave.

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Potential surface waves at the boundary of a metal with a magnetoactive plasma at finite pressure

Azarenkov

Kondratenko

Tyshetskii

1999

Tech. Phys.

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Surface waves in plasma-metal structures (review)

Azarenkov¹,

Kondratenko²,

Ostrikov³

1993

Radiophys Quantum Electron

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Penetration of an electromagnetic field into a magnetoactive plasma

Kondratenko¹

1967

Radiophys Quantum Electron

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A. N. Kondratenko

Nonpotential waves in magnetoactive plasma waveguides

Kinetic theory of electromagnetic waves in a bounded plasma

Potential surface waves at the boundary of a metal with a magnetoactive plasma at finite pressure

Surface waves in plasma-metal structures (review)

Penetration of an electromagnetic field into a magnetoactive plasma

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