Evolution of the bulk electric field in capacitively coupled argon plasmas at intermediate pressures

Author:

Vass MátéORCID,Wilczek SebastianORCID,Derzsi ArankaORCID,Horváth BenedekORCID,Hartmann PeterORCID,Donkó ZoltánORCID

Abstract

Abstract The physical characteristics of an argon discharge excited by a single-frequency harmonic waveform in the low-intermediate pressure regime (5–250 Pa) are investigated using particle-in-cell/Monte Carlo collisions simulations. It is found that, when the pressure is increased, a non-negligible bulk electric field develops due to the presence of a ‘passive bulk’, where a plateau of constant electron density forms. As the pressure is increased, the ionization in the bulk region decreases (due to the shrinking of the energy relaxation length of electrons accelerated within the sheaths and at the sheath edges), while the excitation rate increases (due to the increase of the bulk electric field). Using the Fourier spectrum of the discharge current, the phase shift between the current and the driving voltage waveform is calculated, which shows that the plasma gets more resistive in this regime. The phase shift and the (wavelength-integrated) intensity of the optical emission from the plasma are also obtained experimentally. The good qualitative agreement of these data with the computed characteristics verifies the simulation model. Using the Boltzmann term analysis method, we find that the bulk electric field is an Ohmic field and that the peculiar shape of the plasma density profile is partially a consequence of the spatio-temporal distribution of the ambipolar electric field.

Funder

Nemzeti Kutatási Fejlesztési és Innovációs Hivatal

Deutsche Forschungsgemeinschaft

Publisher

IOP Publishing

Subject

Condensed Matter Physics

Reference53 articles.

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