Journal of Scientific Research and Reports

An original method for producing low electron temperature and high electron density plasma was studied experimentally by using a rectangular grid-cage as a capacitively-coupled powered electrode in a radio frequency (RF) discharge.

A rectangular grid-cage electrode was placed on a side wall of a grounded cubic-box chamber of 15x15x15 cm³ in volume. The cubic chamber was situated in a stainless steel vacuum chamber 60 cm in diameter and 100 cm long. An argon plasma was generated by a 40 MHz power source in a pressure range of 2.0 ~ 6.7 Pa. RF power P_RF of 5 ~ 60 W was supplied to the grid-cage electrode directly through an impedance matching circuits with a dc blocking capacitor for efficient plasma production.

The electron temperature T_e and electron density n_e were found to be strongly dependent on a mesh size of grid-cage electrodes. If the mesh of the grid-cage was fine, T_e  decreased, while n_e  increased, compared with those in the case of a coarse grid-cage electrode. By using a fine grid-electrode, T_e dropped down to 0.5 eV, while n_e reached up to 1.62x10¹¹ cm^-3  at the center of the cubic discharge chamber of 15x15x15 cm³under argon pressure of 2.0 Pa and RF power of 60 W.

This discharge method easily provides low electron temperature and high density plasmas under the continuous RF discharge.