A. Schwabedissen scite author profile

Measurements of the plasma potential, electron density, effective electron temperature, and electron energy distribution function ͑EEDF͒ have been performed with Langmuir probes in planar, electrostatically shielded, low-pressure inductively coupled plasmas. The plasma source is a modification of the Gaseous Electronics Conference RF Reference Cell ͓P. J. Hargis et al., Rev. Sci. Instrum. 65, 140 ͑1994͔͒ with the upper electrode replaced by a five-turn planar coil and a quartz vacuum interface. Four different rare gases ͑Ar, Kr, Xe, and Ne͒, a He:Ar ͑96:4͒ mixture, and O 2 and N 2 were investigated. We found that with increasing ionization potential of the rare gas the electron density decreases, while the effective electron temperature and the plasma potential increase. Non-Maxwellian EEDFs were observed for all energies for O 2 and N 2 discharges as well as for the rare gases above the energy range for elastic collisions. Spatially resolved measurements confirm that the EEDF is determined by spatially averaged quantities instead of the local electric field.

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Mass production of p-type Cz silicon solar cells approaching average stable conversion efficiencies of 22 %

Fertig

et al. 2017

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Comparison of electron density measurements in planar inductively coupled plasmas by means of the plasma oscillation method and Langmuir probes

Schwabedissen

Benck

Roberts

1998

Plasma Sources Sci. Technol.

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The absolute, spatially resolved electron densities in planar inductively coupled plasmas have been measured by two different plasma diagnostic techniques, the plasma oscillation method and Langmuir probes. In the plasma oscillation method a weak electron beam injected into the plasma excites electrostatic electron waves oscillating at the electron plasma frequency, which is proportional to the square root of the electron density. The plasma source is a modified Gaseous Electronics Conference RF Reference Cell. The results for both methods in electropositive, pure rare gas and molecular gas discharges (Ar, Ne, Kr and N 2 ) and in electronegative gases and gas mixtures like O 2 , Cl 2 , CF 4 , BCl 3 , Ar:CF 4 , Ar:O 2 and Ar:Cl 2 are presented and analysed. Over a wide parameter range (gas type, input power and gas pressure), the two techniques yield charge densities which agree within the experimental uncertainty. The electron densities inferred from the plasma oscillation method are generally between the electron and positive-ion density obtained from Langmuir probe measurements. Disagreement between the two techniques is found in molecular gases at higher pressures (p > 3 Pa), where the plasma oscillation method yields electron densities of up to a factor of two higher than the Langmuir probe results.

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Pulsed PECVD deposition of diamond-like carbon films

Fedosenko

Schwabedissen

Engemann

et al. 2002

Diamond and Related Materials

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PlasmaLabel – a New Method to Disinfect Goods Inside a Closed Package Using Dielectric Barrier Discharges

Schwabedissen¹,

Łaciński²,

Chen³

et al. 2007

Contrib. Plasma Phys.

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The PlasmaLabel TM technology marks a significant change in the traditional way to generate atmospheric pressure plasmas. The approach proposed relies on the local application of plasma generating labels supporting a surface dielectric barrier discharge (DBD). These labels are of a limited lifetime in the order of several 10 minutes and can be placed in airtight flexible as well as rigid packages containing goods to be disinfected or sterilized. Preferentially from dry or humid air entrapped in the airtight package, ozone is formed and acts on the packed goods as long as the DBD is operating. The ozone formation depends on the DBD-electrode geometry, the gas atmosphere inside the package, and the power (amplitude, frequency, cw or pulsed) fed to the system and also to loss mechanisms like production of NOx. After switching-off the power ozone decomposes again to oxygen. This means that upon opening the packages after a suitable time, no harmful ozone is being released. Applications in different fields are possible, e.g. fresh food conservation, disinfection of packaged cosmetics, and sterilization of pharmaceutical and medical goods. This paper addresses basic scientific and technological issues and reports some first results obtained.

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A. Schwabedissen

Langmuir probe measurements in an inductively coupled plasma source

Mass production of p-type Cz silicon solar cells approaching average stable conversion efficiencies of 22 %

Comparison of electron density measurements in planar inductively coupled plasmas by means of the plasma oscillation method and Langmuir probes

Pulsed PECVD deposition of diamond-like carbon films

PlasmaLabel – a New Method to Disinfect Goods Inside a Closed Package Using Dielectric Barrier Discharges

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