Effect of modulated high-pressure mercury discharges on the shape of self-reversed lines

Abstract: The variation of the principal characteristics of the mercury visible triplet self-reversed lines is studied as a function of radial and temporal profiles of the temperature and of the species densities in high pressure mercury discharges (∼2 and ∼3 atm) operating on 50 Hz ac. An investigation is made into the effect of different theoretical and experimental parameters on the shape of calculated self-reversed lines. By comparison between experimental and theoretical results an estimation is made of the broaden… Show more

“…The radiance of optically thin mercury lines (577/579 nm) is used to determine the radial temperature profile around the discharge axis [1,2].…”

“…In our case the lines HgI (λ (1) = 576.96 nm; 6 3 D 2 -6 1 P 1 ) and HgI (λ (2) = 579.07 nm; 6 1 D 2 , 6 3 D 1 -6 1 P 1 ) are used, and they are optically thin (cf also [5,6]). Because these two lines are superimposed, the resulting spectral emission coefficient is 1) g (1) m A (1) mn exp…”

“…The advantage of this standard is its intensive radiation in the examined spectral region. The received The spectral radiance density distribution of the mercury discharge with the wavelengths λ (1) and λ (2) in the discharge axis.…”

Determination of the radial temperature profile in a high-pressure mercury discharge using the electrical conductivity

“…The radiance of optically thin mercury lines (577/579 nm) is used to determine the radial temperature profile around the discharge axis [1,2].…”

“…In our case the lines HgI (λ (1) = 576.96 nm; 6 3 D 2 -6 1 P 1 ) and HgI (λ (2) = 579.07 nm; 6 1 D 2 , 6 3 D 1 -6 1 P 1 ) are used, and they are optically thin (cf also [5,6]). Because these two lines are superimposed, the resulting spectral emission coefficient is 1) g (1) m A (1) mn exp…”

“…The advantage of this standard is its intensive radiation in the examined spectral region. The received The spectral radiance density distribution of the mercury discharge with the wavelengths λ (1) and λ (2) in the discharge axis.…”

Determination of the radial temperature profile in a high-pressure mercury discharge using the electrical conductivity

“…The radiance of optically thin mercury lines (577.0/579.1 nm) is used to determine the radial temperature profile in the discharge axis [5,10]. The spectral emission coefficient ε ki of a line is given by [11]…”

“…Special attention is paid to the radial behaviour and to absolute quantities of the mercury triplet states 6 3 P 0 , 6 3 P 1 and 6 3 P 2 and the ground state 6 1 S 0 . The used absorption lines at 404.7, 435.8, 546.1 and 253.7 nm are optically thick [5,6].…”

Application of the hook method and emission spectroscopy for the determination of radial density and temperature profiles in high-pressure mercury discharges

Emission Spectroscopy in Optically Thick Gas Discharges