Тип публикации: статья из журнала
Год издания: 2020
Идентификатор DOI: 10.1088/1402-4896/ab49f9
Ключевые слова: line profile, radiative transfer, absorption coefficient, optical depth, plasma, velocity equations
Аннотация: The transfer of resonance radiation in optically dense spherical plasma, rotating around the axis of symmetry, is studied numerically. Frequency shifts in the red and blue wings of the spectrum, frequency broadening of the emission line profile and the absorption line profile, caused by the rotational broadening effect (RBE), are iПоказать полностьюnvestigated for calcium plasma at the resonant transition with the wavelength of 397 nm. The RBE of absorption and emission lines is explained by broadening of the elementary ion absorption profiles which demonstrate the Doppler dependence on frequency. Location of the frequency of absorption maximum in broadband radiation transmitted through the plasma, as well as location of the frequencies of intensity maximum of the unreabsorbed emission line and intensity minimum of the reabsorbed emission line, unambiguously determine ray velocity of ions in the plasma. The RBE effect of the emission line leads to an increase in probability of photon escape from the medium. This circumstance is indirect evidence for the fact that Holstein's effective deexcitation time for rotating plasma should decrease. Full width at half maximum (FWHM) of the emission spectrum for rotating plasma increases linearly with the growth of optical thickness of the medium. Measurement of the FWHM value can be a diagnostic method for determining concentration of ions in the plasma.
Журнал: PHYSICA SCRIPTA
Выпуск журнала: Vol. 95, Is. 3
Номера страниц: 35603
ISSN журнала: 00318949
Место издания: BRISTOL
Издатель: IOP PUBLISHING LTD