Author:
Yoshimura S.,Terasaka K.,Tanaka E.,Aramaki M.,Okamoto A.,Nagaoka K.,Tanaka M. Y.
Abstract
HYPER-I (High Density Plasma Experiment-I) is a linear device that combines a wide operation range of plasma production with flexible diagnostics. The plasmas are produced by the electron cyclotron resonance (ECR) heating with parallel injection of right-handed circularly polarized microwaves of 2.45 GHz from the high-field side. The maximum attainable electron density is more than two orders of magnitude higher than the cutoff density of ordinary waves. Spontaneous formation of a variety of large-scale flow structures, or vortices, has been observed in the HYPER-I plasmas. Flow-velocity field measurements using directional Langmuir probes (DLPs) and laser-induced fluorescence (LIF) method have clarified the physical processes behind such vortex formations. Recently, a new intermittent behavior of local electron temperature has also been observed. Statistical analysis of the floating potential changes has revealed that the phenomenon is characterized by a stationary Poisson process.
Publisher
Cambridge University Press (CUP)
Reference26 articles.
1. High-density plasma production for neutralizing negative ion beam
2. Formation of Visco-dissipative Vortex and Quasi-neutrality Breaking in a Magnetoplasma
3. Measurement of ion flow velocity field associated with plasma hole using laser induced fluorescence spectroscopy;Yoshimura;J. Plasma Fusion Res. Ser.,2009
4. Probability density functions of floating potential fluctuations due to local electron flux intermittency in a linear ECR plasma;Yoshimura;JPS Conf. Proc.,2014
5. Experimental observation of a tripolar vortex in a plasma
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