Please use this identifier to cite or link to this item: https://physrep.ff.bg.ac.rs/handle/123456789/159
Title: The Ag I and Au I resonance line broadening in helium plasma
Authors: Djeniže, Stevan
Srećković, Aleksandar
Bukvić, Srđan 
Vitas, Nikola
Keywords: Atomic data;Line profiles;Plasma spectroscopy
Issue Date: 1-Jan-2006
Journal: Zeitschrift fur Naturforschung - Section A Journal of Physical Sciences
Abstract: 
The shapes and shifts of the resonance spectral lines of neutral silver (Ag I: 328.068 and 338.289 nm) and gold (Au I: 242.795 and 267.595 nm) have been measured in a laboratory helium plasma of about 18,500 K electron temperature and an electron density ranging between 0.78 · 1023 and 1.24-1023 m-3. Stark broadening has been found as the dominant mechanism of the line shape and position formation. Our measured Ag I and Au I resonance line Stark widths (W) and shifts (d) are the first reliable experimental data. They are compared with calculated single Ag I and Au I W and d data based on a semiclassical approach. The measured values are higher than the calculated ones, especially of the Au I resonance lines. Besides, we have calculated the hyperfine structure (hfs) components and their relative intensities of the mentioned Ag I and Au I lines. Strong asymmetry between the red and blue components of the hfs was found. A modified version of the linear, low-pressure, pulsed arc was used as plasma source operated in helium with silver and gold atoms as impurities, evaporated from silver and gold cylindrical plates located in the homogeneous part of the discharge providing conditions free of self-absorption. At the above mentioned helium plasma conditions the splitting in the hyperfine structure (Δhfs) of the Ag I and Au I resonance lines has been overpowered by Stark and Doppler broadenings. We estimate that at electron densities below 1020 m-3 and electron temperatures below 10,000 K the hfs components in the 267.595 nm and 242.795 nm Au I lines play an important role in the line shape formation, and the resulting line profiles can be used for temperature estimation in optically thin plasmas. © 2006 Verlag der Zeitschrift für Naturforschung.
URI: https://physrep.ff.bg.ac.rs/handle/123456789/159
ISSN: 0932-0784
DOI: 10.1515/zna-2006-0907
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