Diffusion charging of ultrafine aerosol particles by positive helium, argon, and nitrogen ions

Motoaki Adachi; Kikuo Okuyama; Yasuo Kousaka; Hiroyuki Kozuru; David Y.H. Pui

doi:10.1063/1.339368

Diffusion charging of ultrafine aerosol particles by positive helium, argon, and nitrogen ions

Motoaki Adachi, Kikuo Okuyama, Yasuo Kousaka, Hiroyuki Kozuru, David Y.H. Pui

Mechanical Engineering

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Abstract

The unipolar charging phenomena of ultrafine aerosol particles less than 0.1 μm in diameter by positive gas molecule ions produced by α-ray irradiation are experimentally evaluated in helium, argon, nitrogen, and helium-argon mixture gases. The dependencies of the diffusion charging process of particles on ion species of positive helium, argon, and nitrogen ions are quantitatively well explained by a numerical solution of the population balance equations with the use of Fuchs' combination probability between particles and ions [N. A. Fuchs, Geofis. Pura Appl. 56, 185 (1963)]. The quantity of charge on particles decreases with an increase of ion mass in the order of the helium, nitrogen, and argon ions. The particle charging in a helium-argon mixture is determined by the ion concentration of both species.

Original language	English (US)
Pages (from-to)	3050-3052
Number of pages	3
Journal	Journal of Applied Physics
Volume	62
Issue number	7
DOIs	https://doi.org/10.1063/1.339368
State	Published - 1987

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AU - Adachi, Motoaki

AU - Okuyama, Kikuo

AU - Kousaka, Yasuo

AU - Kozuru, Hiroyuki

AU - Pui, David Y.H.

PY - 1987

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AB - The unipolar charging phenomena of ultrafine aerosol particles less than 0.1 μm in diameter by positive gas molecule ions produced by α-ray irradiation are experimentally evaluated in helium, argon, nitrogen, and helium-argon mixture gases. The dependencies of the diffusion charging process of particles on ion species of positive helium, argon, and nitrogen ions are quantitatively well explained by a numerical solution of the population balance equations with the use of Fuchs' combination probability between particles and ions [N. A. Fuchs, Geofis. Pura Appl. 56, 185 (1963)]. The quantity of charge on particles decreases with an increase of ion mass in the order of the helium, nitrogen, and argon ions. The particle charging in a helium-argon mixture is determined by the ion concentration of both species.

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Diffusion charging of ultrafine aerosol particles by positive helium, argon, and nitrogen ions

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