Relations between light emission and electron density and temperature fluctuations in a helium plasma
Date
2011-08-11
Authors
Ma, Shuiliang
Howard, John
Thapar, Nandika
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American Institute of Physics (AIP)
Abstract
The relations between three atomic lines, He I 667.8 nm (3¹ D → 2¹ P), 706.5 nm (3³ S → 2³ P), and 728.1 nm (3¹ S → 2¹ P), and the underlying fluctuations in a helium plasma are investigated for the quantitative interpretation of optical observations in plasma fluctuationmeasurements. Frequency dependent fluctuation amplitude ratios and phase delays between the line emission fluctuation and the electron density and temperaturefluctuations are calculated based on a quasi-static collisional-radiative model and a linear approximation technique. For frequencies up to the upper limit of practical interest (<1 MHz), the fluctuation amplitude ratios and phase delays are similar to those directly evaluated by the quasi-static model. It is found that the difference between the results from the linear approximation technique and from the quasi-static model is due to the absence of metastable fluctuations. Contributions of the 2¹ S and 2³ S metastable fluctuations to the three helium line emission fluctuations are analyzed. The linearity between fluctuations in the line emission and in the electron density and temperature is valid for fluctuation levels higher than 10%.
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Keywords: Amplitude ratios; Atomic lines; Collisional radiative model; Frequency dependent; Helium lines; Helium plasmas; Line emissions; Linear approximations; Optical observations; Phase delay; Plasma fluctuations; Quantitative interpretation; Quasi-static; Quasi
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Physics of Plasmas
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Journal article
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