Abstract
The dust grain surface potential is examined analytically and numerically in dusty plasmas containing negative/positive ion species by using the Cairn Tsallis (non-Maxwellian) dusty plasma. The equations for the dust-charging process are derived to solve the current balance equation for the xenon-fluorine-sulfur hexafluoride and argon-fluorine-sulfur hexafluoride plasmas. The charging process affected by plasma properties such as spectral indices alpha and q, in addition to positive ion streaming (UAr+ and UXe+) and negative ion streaming (UF- and USF6-) d of both types of plasmas, is examined . Our findings suggest that considering a wide range of Xe+ - F- - SF6- and Ar+ - F- - SF6- masses is critical for understanding plasma physics, specifically multi-component plasmas.