1983
DOI: 10.1007/bf00688545
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Nonlinear plasma spectroscopy of the hydrogen balmer-? line

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1991
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Cited by 28 publications
(10 citation statements)
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“…Thus, one can estimate the plasma density as р10 13 cm Ϫ3 . 30,31 The absence of significant broadening of H ␣ and H ␤ spectral lines is direct proof of the absence of electric fields larger than 10 3 V/cm at a distance several tens of m from the front surface of the ferroelectric. This coincides well with the model of plasma formation which predicts screening of the electric fields of polarization surface charges by the charged plasma particles.…”
Section: Plasma Electron Densitymentioning
confidence: 93%
“…Thus, one can estimate the plasma density as р10 13 cm Ϫ3 . 30,31 The absence of significant broadening of H ␣ and H ␤ spectral lines is direct proof of the absence of electric fields larger than 10 3 V/cm at a distance several tens of m from the front surface of the ferroelectric. This coincides well with the model of plasma formation which predicts screening of the electric fields of polarization surface charges by the charged plasma particles.…”
Section: Plasma Electron Densitymentioning
confidence: 93%
“…The absorption coefficient for the probe beam (α 0 probe ) represents the density of atomic hydrogen at the n = 2 state [3]. In addition, since the widths of the peak components in the saturation spectrum are basically determined by the natural and the Stark broadenings, it would be possible to evaluate the electron density and the electron temperature of the plasma from the profiles of the peak components [11][12][13]. For example, in the case of the high-density mode discharge, the peaks were broadened due to Stark broadening and were overlapped each other as shown in figure 3 (but the peaks (1), ( 2), (6), and (7) were observable).…”
Section: Assignment Of Peaksmentioning
confidence: 99%
“…However, when we develop a system of saturation spectroscopy with the intention of applying it to plasma diagnostics, it is necessary to investigate its spectral characteristics as functions of plasma parameters. The shift and the broadening of fine-structure components of the hydrogen Balmer-α line were investigated by Weber and coworkers in unmagnified hollow cathode arc discharges approximately thirty years ago [11][12][13], where they used saturation-polarization spectroscopy to obtain a Doppler-free resolution. In this work, we examined characteristics of simple saturation spectroscopy in a magnetized linear plasma source.…”
Section: Introductionmentioning
confidence: 99%
“…This assumption is valid when the total line broadening is much wider than the separation between the fine structure components. At lower electron densities this problem is not easy to deal with because the fine structure splitting and the intensity of components might change with the electric plasma micro field [21][22][23]50]. Some preliminary calculations of Stark profiles on hydrogen lines with fine structure effect were done for the H α line in [51].…”
Section: Doppler-stark Coupling and Fine Structurementioning
confidence: 99%
“…The method has been successfully applied for many years under conditions of intermediate electron densities (10 20 ) when Doppler broadening might be the biggest broadening mechanism, the most suitable way to measure the Stark broadening is by means of Doppler free spectroscopy [21][22][23][24]. This very precise method is used to study the Stark effect under extremely low densities.…”
Section: Introductionmentioning
confidence: 99%