Ion and neutral parameters are determined in the high electron density, magnetized, hydrogen plasma beam of an ITER divertor relevant plasma via measurements of the n=2 excited neutrals. Ion rotation velocity (up to 7 km/s) and temperature (2–3 eV~Te) are obtained from analysis of Ha spectra measured close to the plasma source. The methodology for neutral density determination is explained whereby measurements in the linear plasma beam of Pilot-PSI are compared to modeling. Ground-state atomic densities are obtained via the production rate of n=2 and the optical thickness of the Lyman-a transition (escape factor ~0.6) and yield an ionization degree >85% and dissociation degree in the residual gas of ~4%. A 30% proportion of molecules with a...
We explore the possibility of using the neutral H spectral line prole to mea-sure the ion temperatu...
Atomic hydrogen lines and line ratios are being used for diagnostics of technical plasmas in hydroge...
International audienceA 13.56 MHz RF discharge in hydrogen was studied within the pressure range of ...
Ion and neutral parameters are determined in the high electron density, magnetized, hydrogen plasma ...
Ion and neutral parameters are determined in the high electron density, magnetized, hydrogen plasma ...
We present detailed spatial density measurements of H(n = 2), i.e. the first excited state of atomic...
ITER, the next generation fusion reactor, is currently being constructed with the challenge of demon...
Optical emission and absorption spectroscopy and double Langmuir probe diagnostics have been applied...
Neutral particles are an important constituent of low temperature plasma. Neutral particles are invo...
The absolute density of atomic hydrogen excited states in two different regimes of a magnetized expa...
In this work we investigate the applicability of several optical emission spectroscopy methods to me...
For the next-generation, burning tokamak plasmas such as ITER, diagnostic neutral beams and beam spe...
We explore the possibility of using the neutral H spectral line prole to mea-sure the ion temperatu...
Atomic hydrogen lines and line ratios are being used for diagnostics of technical plasmas in hydroge...
International audienceA 13.56 MHz RF discharge in hydrogen was studied within the pressure range of ...
Ion and neutral parameters are determined in the high electron density, magnetized, hydrogen plasma ...
Ion and neutral parameters are determined in the high electron density, magnetized, hydrogen plasma ...
We present detailed spatial density measurements of H(n = 2), i.e. the first excited state of atomic...
ITER, the next generation fusion reactor, is currently being constructed with the challenge of demon...
Optical emission and absorption spectroscopy and double Langmuir probe diagnostics have been applied...
Neutral particles are an important constituent of low temperature plasma. Neutral particles are invo...
The absolute density of atomic hydrogen excited states in two different regimes of a magnetized expa...
In this work we investigate the applicability of several optical emission spectroscopy methods to me...
For the next-generation, burning tokamak plasmas such as ITER, diagnostic neutral beams and beam spe...
We explore the possibility of using the neutral H spectral line prole to mea-sure the ion temperatu...
Atomic hydrogen lines and line ratios are being used for diagnostics of technical plasmas in hydroge...
International audienceA 13.56 MHz RF discharge in hydrogen was studied within the pressure range of ...