. "In: Meichsner, J., Loffhagen, D., and Wagner, H. E. (Eds): Proceedings of the ICPIG XXVI Confererence" . "6"^^ . . "2003-07-15+02:00"^^ . . "[556D98EC8F01]" . "Ad\u00E1mek, Petr" . . . . . "Tich\u00FD, Milan" . "605677" . . "RIV/60076658:12410/03:00004608" . . . "Electron temperature in surfatron-generated plasma-jet in argon measured by double Langmuir probe" . . "\u0160patenka, Petr" . "Electron temperature in surfatron-generated plasma-jet in argon measured by double Langmuir probe"@en . . "Electron temperature in surfatron-generated plasma-jet in argon measured by double Langmuir probe" . "Greifswald" . "Greifswald" . . . . "2"^^ . "Electron temperature in surfatron-generated plasma-jet in argon measured by double Langmuir probe"@en . "The diagnosed microwave plasma source consists of a surfatron powered by a microwave magnetron generator, which creates plasma from the flowing argon gas (at flow rate typically 600 sccm) in a quartz nozzle. We present first results of probe diagnostic of generated plasma at nozzle exit. The presented diagnostic includes the single and double probe measurements of the radial profile of the plasma-jet and its dependence on the axial position from the nozzle exit at argon pressure 4 kPa and microwave power 17 watts. In the future we plan to use the developed plasma source for material surface processing and possibly also in the area of biology and medicine." . . "0"^^ . . "Stra\u0148\u00E1k, V\u00EDt\u011Bzslav" . "0"^^ . . "12410" . "Universit\u00E4t Greifswald" . . . "249-250" . . "RIV/60076658:12410/03:00004608!RIV/2004/MSM/124104/N" . "K\u0159\u00ED\u017E, Pavel" . "Z(MSM 124100004), Z(MSM 242100002)" . "Bla\u017Eek, Josef" . . "3-00-011689-3" . . "electron temperature, electron density, double probe, single probe"@en . "The diagnosed microwave plasma source consists of a surfatron powered by a microwave magnetron generator, which creates plasma from the flowing argon gas (at flow rate typically 600 sccm) in a quartz nozzle. We present first results of probe diagnostic of generated plasma at nozzle exit. The presented diagnostic includes the single and double probe measurements of the radial profile of the plasma-jet and its dependence on the axial position from the nozzle exit at argon pressure 4 kPa and microwave power 17 watts. In the future we plan to use the developed plasma source for material surface processing and possibly also in the area of biology and medicine."@en . "6"^^ .