J Jeroen Jonkers scite author profile

In this paper the electron density and temperature of atmospheric helium and argon plasmas operated under similar experimental conditions are compared. The conditions are chosen such that both plasmas are ionizing. It is found that a helium plasma has a higher electron temperature and a lower electron density than an equi-operational argon plasma, i.e. an argon plasma that is operated at the same external conditions. This is mainly caused by the higher excitation potential of the first excited state and the lower mass of helium, respectively. Due to these differences in electron density and temperature the densities of the helium ground state and of the excited states are much larger than their corresponding Saha equilibrium values for a wide range of conditions. The consequence of this is that the spectroscopic methods, which are used to determine the electron density and temperature, have a very limited validity region in the case of helium. For argon the deviations are much smaller so that these methods can often be applied safely.

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Fundamental comparison between non-equilibrium aspects of ICP and MIP discharges

Mullen

Jonkers

1999

Spectrochimica Acta Part B: Atomic Spectroscopy

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Steep plasma gradients studied with spatially resolved Thomson scattering measurements

Jonkers

Selen

Mullen

et al. 1997

Plasma Sources Sci. Technol.

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Abstract. Plasmas created by the microwave torch Torcheà Injection Axiale (TIA), which are around 2 mm in diameter and 15 mm long, are investigated. In these plasmas large gradients are present so that the edge is supposed to play an important role. Using global Thomson scattering measurements, in which global refers to the fact that the size of the laser beam is approximately equal to the diameter of the plasma, the electron densities and temperatures were determined. However, these results lead to discrepancies in the particle balance: the production of free electrons is much larger than the classical losses due to recombination, convection and diffusion. Radially resolved Thomson scattering measurements show the plasma has a hollow structure. Although this enhances the losses due to diffusion, still a large discrepancy remains between production and destruction of free electrons in the argon plasmas. Probably some molecular processes are significant as well. A good candidate is the charge transfer between argon ions and nitrogen molecules, since mixing with the surrounding air has a large impact on the plasma.

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An easy way to determine simultaneously the electron density and temperature in high-pressure plasmas by using Stark broadening

Torres

Jonkers

Sande

et al. 2003

J. Phys. D: Appl. Phys.

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This paper discusses the possibility of determining, at the same time, both the electron density and temperature in a discharge produced at atmospheric pressure using the Stark broadening of lines spontaneously emitted by a plasma. This direct method allows us to obtain experimental results that are in good agreement with others previously obtained for the same type of discharge. Its advantages and disadvantages compared to other direct methods of diagnostics, namely Thomson scattering, are also discussed.

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The behavior of molecules in microwave-induced plasmas studied by optical emission spectroscopy. 1. Plasmas at atmospheric pressure

Timmermans

Jonkers

Thomas

et al. 1998

Spectrochimica Acta Part B: Atomic Spectroscopy

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J Jeroen Jonkers

On the differences between ionizing helium and argon plasmas at atmospheric pressure

Fundamental comparison between non-equilibrium aspects of ICP and MIP discharges

Steep plasma gradients studied with spatially resolved Thomson scattering measurements

An easy way to determine simultaneously the electron density and temperature in high-pressure plasmas by using Stark broadening

The behavior of molecules in microwave-induced plasmas studied by optical emission spectroscopy. 1. Plasmas at atmospheric pressure

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