Time and space resolved spectroscopic investigation during anode plume formation in a high-current vacuum arc

This paper presents time and space resolved results of spectroscopic measurements during the formation of an anode plume in the late current pulse phase of a high-current vacuum arc. The formation of the anode plume is investigated systematically based on the occurrence of high-current anode spots,...

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Bibliographic Details
Published in:Journal of physics. D, Applied physics Applied physics, 2017-05, Vol.50 (18), p.185203
Main Authors: Khakpour, A, Methling, R, Uhrlandt, D, Franke, St, Gortschakow, S, Popov, S, Batrakov, A, Weltmann, K D
Format: Article
Language:English
Subjects:
anode plume
anode spot
high current anode phenomena
optical emission spectroscopy
vacuum arc
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Summary:This paper presents time and space resolved results of spectroscopic measurements during the formation of an anode plume in the late current pulse phase of a high-current vacuum arc. The formation of the anode plume is investigated systematically based on the occurrence of high-current anode spots, depending on gap distance and current for AC 100 Hz and CuCr7525 butt contacts with a diameter of 10 mm. The anode plume is observed after the extinction of anode spot type 2 in which both the anode and cathode are active. It is concluded from the spatial profiles of the atomic and ionic radiation, parallel and perpendicular to anode surface, that the inner part of the plume is dominated by Cu I radiation, whereas a halo of light emitted by Cu II covers the plume. The radiation intensity of Cu III lines is quite low across the whole anode plume. Upper level excited state densities corresponding to Cu I lines at 510.55, 515.32, 521.82, 578.21 nm are determined. The temporal evolution of the resulting excitation temperature in the centre of the plume varies from 8500 K to 6000 K at 500 µs to 100 µs before current zero, respectively. The density calculated for Cu I at position in the plume is in the range of 1-5  ×  1019 m−3.
ISSN:0022-3727
1361-6463
DOI:10.1088/1361-6463/aa6494