| Autors: Christova, M. D., Castanos-Martinez E., Calzada M.D., Kabouzi Y., Luque J.M., Moisan M. Title: Electron density and gas temperature from line broadening in an argon surface-wave-sustained discharge at atmospheric pressure Keywords: plasma diagnostics References Issue
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Цитирания (Citation/s):
1. Influence of N2, O2, and H2 admixtures on the electron power balance and neutral gas heating in microwave Ar plasmas at atmospheric pressure, Durocher-Jean, A., Delnour, N., Stafford, L., Journal of Physics D: Applied Physics - 2019 - в издания, индексирани в Scopus или Web of Science
2. Characterization of a microwave argon plasma column at atmospheric pressure by optical emission and absorption spectroscopy coupled with collisional-radiative modelling, Durocher-Jean, A., Desjardins, E., Stafford, L., Physics of Plasmas - 2019 - в издания, индексирани в Scopus или Web of Science
3. Expansion dynamics of atmospheric pressure helium plasma jet in ambient air, Veda Prakash, G., Patel, K., Behera, N., Kumar, A., Physics Letters, Section A: General, Atomic and Solid State Physics, 384 (19), art. no. 126497 - 2020 - в издания, индексирани в Scopus или Web of Science
4. Measuring the air fraction and the gas temperature in non-thermal argon plasma jets through the study of the air influence on the collisional broadening of some argon atomic emission lines, Garcia, M.C., Yubero, C., Rodero, A., Plasma Sources Science and Technology, 29 (5), art. no. 055006 - 2020 - в издания, индексирани в Scopus или Web of Science
5. A practical method for plasma diagnosis with Balmer series hydrogen lines, Ortiz-Mora, A., Díaz-Soriano, A., Sarsa, A., Dimitrijević, M.S., Yubero, C., Spectrochimica Acta - Part B Atomic Spectroscopy, 163, art. no. 105728 - 2020 - в издания, индексирани в Scopus или Web of Science
6. Numerical and experimental analysis of radiation from a microwave plasma source of the TIAGO type, Nowakowska, H., Czylkowski, D., Hrycak, B., Jasiński, M., Plasma Sources Science and Technology 30(9),095011 - 2021 - в издания, индексирани в Scopus или Web of Science
7. Stable filamentary structures in atmospheric pressure microwave plasma torch, Snirer, M., Toman, J., Kudrle, V., Jašek, O., Plasma Sources Science and Technology 30(9),095009 - 2021 - в издания, индексирани в Scopus или Web of Science
8. An estimation of the axial structure of surface-wave produced plasma column, Kovačević, M.S., Kuzmanović, L., Milošević, M.M., Djordjevich, A., Physics of Plasmas 28(2),023502 - 2021 - в издания, индексирани в Scopus или Web of Science
9. Electron concentration in the non-luminous part of the atmospheric pressure filamentary discharge, Faltýnek, J., Kudrle, V., Šnírer, M., Toman, J., Jašek, O., Plasma Sources Science and Technology 30(1),015001 - 2021 - в издания, индексирани в Scopus или Web of Science
10. Effect of discharge tube properties on parameters of surfacewave sustained plasma, Nowakowska, H. (2022) Przeglad Elektrotechniczny - 2022 - в издания, индексирани в Scopus или Web of Science
11. A Simple and Stable Atmospheric Pressure Electrodeless Water Vapor Microwave Plasma Torch, Tang, Q., Hu, Z., Cui, X., Tao, Z., Tang, J., Applied Sciences (Switzerland) 12(13),6813 - 2022 - в издания, индексирани в Scopus или Web of Science
12. Analysis of the ion collisional contribution over the Stark profile in Hα line, Alcaraz-Pelegrina, J.M., Sarsa, A., Dimitrijević, M.S., Yubero, C., Spectrochimica Acta - Part B Atomic Spectroscopy 194,106455 - 2022 - в издания, индексирани в Scopus или Web of Science
13. Preparation of Al2O3/PVA Nanocomposite Thin Films by a Plasma Jet Method, Kadhem, S.J., Science and Technology Indonesia 8(3), pp. 471-478 - 2023 - в издания, индексирани в Scopus или Web of Science
14. Experimental studies and COMSOL 1-D simulation in Ar capacitively coupled plasmas, Datta, S., Han, J.G., Kumar, R., Sahu, B.B., AIP Advances 14(1),015046 - 2024 - в издания, индексирани в Scopus или Web of Science
Вид: статия в списание, публикация в издание с импакт фактор, публикация в реферирано издание
