|
Abstract: We present nitrogen microwave blown-out plasma at
atmospheric pressure and its emission spectra with their spatial
distribution. The plasma had a symmetric conical shape until
it collapsed to a funnel-like shape at high gas flow rates. We
observed the emission of N2 , N2+ , CN and NO: their Abel-inverted
emissivity increased with increasing power and decreased with
plasma radius.
|
Citations: | 1.) | Wang Y., Wang Z., Wu D., Wu Z., Zhu L., Ma W., Tang Y., Shan J.: Design of a fully automatic microwave plasma torch system. Review Scientific Instruments 90 (5) 055112 (2019), WoS
(2019)
------------- | | 2.) | Lee H.V., Rosario L.M.D., Tumlos R.B., Ramos H.J., Bo-ot L.M.T., Soriano M.N.: Excitation of O(S-1) auroral green line from ambient air in a microwave-induced plasma jet at atmospheric pressure. In: Japanese J. Applied Physics 57 (6) 066102 (2018), WoS
(2018)
------------- | | 3.) | Wang Y., Shan J., Wu D., Tang Y., Wang Z., Zhu L.: Novel spark plug for microwave ignition. 2018 International Conference on Microwave and Millimeter Wave Technology, ICMMT 2018. Piscataway : IEEE, 8563262 (2018), SCOPUS
(2018)
------------- | | 4.) | L.M.D. Rosario, H.V. Lee, Jr., E. Penafiel, H.J. Ramos, L.M.T. Bo-ot,
R.V. Fischer, and R.B. Tumlos: Characterization of a Microwave-Induced Atmospheric-Pressure Ar–N2
Plasma Pencil, IEEE Trans. Plasma Sci. 45 (2) 301-309 (2017), cit. 12, SCI
(2017)
------------- | | 5.) | Li S-Z; Chen C-J; Zhang J; Wang YX; Li HD: Characteristic Investigation of an Atmospheric-Pressure Microwave N-2-Ar Plasma Torch, IEEE TRANS. PLASMA SCI. 43(5): 1683-1687 (2015), SCI
(2015)
------------- | | 6.) | Li S-Z; Chen C-J; Zhang X., Zhang J; Wang YX;: Spectroscopic diagnosis of an atmospheric-pressure waveguide-based microwave N2-Ar plasma torch. Plasma Sources Science Technol. 24 (2) 025003 (2015), SCI
(2015)
------------- | | 7.) | Walsh J. L., Kong M. G.: Portable nanosecond pulsed air plasma jet, Appl. Phys. Lett. 99 (8) 081501 (2011), citation SCI
(2011)
------------- |
|
