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Numerical experiments for radial dynamics and opacity effect in argon plasma focus

Ali, Z. and Ali, J. and Saw, S. H. and Lee, S. (2012) Numerical experiments for radial dynamics and opacity effect in argon plasma focus. Progress in Electromagnetics Research Symposium . pp. 1875-1879. ISSN 1559-9450

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Abstract

Az-pinch in its simplest form is a column of plasma in which current (J) is driven in the axial direction (z) by an electric power source producing an azimuthal (?) direction magnetic ?eld (B) that tends to con?ne plasma by (J×B) force. One application of this con?guration is Plasma Focus. Dense plasma focus (DPF) is essentially a pulsed electric gas discharge between coaxially arranged electrodes. DPF devices belong to the family of dynamic Z-pinches which are self-constricted plasma configurations. The Lee model code was developed to simulate the plasma dynamics in a DPF. The model incorporates the energy and mass balances equivalent, at least in the gross sense, with radiation-coupled dynamics to all the processes which are not even speci?cally modeled. It is a well known fact that radiation loss is an inevitable phenomenon in the ?nal stage of pinch compression. The most obvious one is that of a focus or a Z-pinch. Plasma self-absorption is an important factor during the pinch compression. In this paper the e?ect of self absorption of line radiation was investigated in argon plasma by a series of numerical experiment considering both aspects, i.e., by including and excluding the self absorption term in Lee code. The results were compared for various parameters, i.e., Radial trajectories, pinch duration, pinch current, line radiation yield while changing pressure. The e?ect of radiation self absorption was observed in last few fractions of seconds (200–300ns). Considering self absorption, the compression shows a value of radius of about 0.2 mm while a collapse (radiative collapse) was observed otherwise. The results illustrated that the radiation cooling becomes signi?cant when the plasma is dense and turn to be opaque for radiation. Hence in real case we do not see a radiative collapse in argon PF as self absorption plays in real experiments. The results of pinch duration and pinch current also indicated that self absorption is essentially enhancing the pinch in terms of stability.

Item Type:Article
Uncontrolled Keywords:radiative collapse, pinch duration, column of plasma
Subjects:Q Science > QC Physics
Divisions:Science
ID Code:47285
Deposited By: Narimah Nawil
Deposited On:22 Jun 2015 13:56
Last Modified:31 Mar 2019 16:37

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