Abstract
A theoretical study of single-crystal silicon surface roughness induced by SF6 plasma has been carried out by means of atomic force microscopy. Plasma which contains the velocity shear instability has been used to study the relation between the plasma parameters and subsequent surface roughness. The surface roughness has been examined in the dependence on experimental parameters. The results ob- tained by theoretical calculations are identical to the experimental ones. The present paper has quanti- fied the influence of a DC electric field values on plasma parameters such as the ratio of ion flux to the neutral reactant flux (J+/JF), exposure time, DC electric field, magnetic field and inhomogeneity. Theo- retical investigation shows that the roughness of silicon surface increases with the increase of the val- ues of J+/JF, exposure time, of magnetic field, of inhomogeneity in a DC electric field and decreases through increasing the value of a DC electric field.
УДК 533.9