Title :
Manipulating Dust Charge Using Ultraviolet Light in a Complex Plasma
Author :
Land, Victor ; Goedheer, Wim J.
Author_Institution :
FOM Inst. for Plasma Phys., Nieuwegein
fDate :
4/1/2007 12:00:00 AM
Abstract :
Making use of a 1-D particle-in-cell plus Monte Carlo code, which includes the scattering and collection of plasma particles on dust immersed in the plasma, we study the effect of photodetachment by ultraviolet (UV) photons in a radio frequency dusty argon plasma. This is done by adding a UV source in the model, which results in a UV flux entering the plasma from the left side. The dust charge is reduced for dust clouds consisting of 5- mum particles at a dust density relevant for both experiments and plasma applications. Using UV photons with energies above the work function, but below the ionization threshold, at fluxes of a few tens of watts per square meter, provides an interesting tool to control the dust charge in such plasmas. This could result in a way to control the dust particle coagulation or dust transport. For very high dust densities, the dust charge is not reduced by the incident UV photons
Keywords :
Monte Carlo methods; argon; dusty plasmas; electron detachment; ionisation; plasma collision processes; plasma density; plasma light propagation; plasma simulation; plasma transport processes; 5 mum; Ar; Monte Carlo code; complex plasma; dust charge; dust density; dust particle coagulation; dust transport; ionization threshold; particle-in-cell code; photodetachment; plasma particle scattering; radiofrequency dusty argon plasma; ultraviolet light; ultraviolet photons; work function; Argon; Dusty plasma; Light scattering; Monte Carlo methods; Particle scattering; Plasma applications; Plasma density; Plasma sources; Radio frequency; Ultraviolet sources; Charging; dusty plasmas; particle-in-cell/Monte Carlo (PIC/MC); photo-ionization; photodetachment; ultraviolet (UV) light;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2007.893748
