Ion current to a spherical probe in a flowing high-pressure plasma under thin-sheath conditions

Abstract

The current to a large (radius = 2.4 mm) negatively biased spherical probe in a flowing plasma (a propane/air flame) has been measured over wide ranges of plasma-ionisation density (3 × 10¹⁵ to 10¹⁸ m⁻³), probe bias (10–400V) and probe/plasma relative velocity (3–40m/s). Under these conditions, the sheath surrounding the probe is thin and the probe current is a function of the probe/plasma velocity. In consequence, the static continuum probe theory of Su and Lam, and the motionally dependent thick-sheath theory of Clemenets and Smy are both found to be in error by at least an order of magnitude. A thin relationship has been derived for the spherical probe which shows excellent agreement with the experimental data:I=12.13(με₀)^1/4(n_eev_f)^3/4V^1/2r_p^5/4where I = probe current, μ = ionic mobility, ε₀ = permittivity of free space, n_e = ionisation density, e = electron charge, v_f = flow velocity, V = probe bias and r_p = probe radius (all in MKS units)