Citations: | 1.) | Qayyum A; Deeba F; Ahmad S; Ahmad Z; Naseera MU; Shah SIW; Hussain S; Zakaullah M: Optical Emission and Langmuir Probe Diagnostic Measurements in DC Electrode Pulse Discharge in Nitrogen; HIGH TEMPERATURE 57 (6) 821-831 (2020), WoS
(2020)
------------- | | 2.) | Savkin KP ; Bugaev AS; Gushenets VI; Nikolaev AG; Ivanov YF; Oks EM; Frolova VP; Shandrikov MV; Yushkov, GY: Generation of micron and submicron particles in atmospheric pressure discharge in argon flow with magnesium, zinc, and boron carbide electrodes; SURFACE & COATINGS TECHNOLOGY 389, 125578 (2020), WoS
(2020)
------------- | | 3.) | Li X., Wu K., Liu R., Yang L., Geng J., Wang B., Jia P.: Spatial-temporal evolution and plasma parameters' diagnosis of a transverse glow discharge in atmospheric pressure air. IEEE Trans. Plasma Science, 47 (2) 1330-1335 (2019), WoS, SCOPUS
(2019)
------------- | | 4.) | Lu X., Reuter S., Laroussi M., Liu D.: Nonequilibrium atmospheric pressure plasma jets: Fundamentals, diagnostics, and medical applications. Nonequilibrium Atmospheric Pressure Plasma Jets: Fundamentals, Diagnostics, and Medical Applications. New York: CRC Press, 1-426 (2019), SCOPUS
(2019)
------------- | | 5.) | Li X., Chu J., Jia P., Yang L., Wang B., Wu K.: Dynamics of an atmospheric pressure planar plume with two naked electrodes excited by an alternating current voltage. Journal of Applied Physics 123 (10) 103303 (2018), WoS, SCOPUS
(2018)
------------- | | 6.) | Li X.C., Wu K.Y., Jia P.Y., Bao W.T., Di C.: Spectral investigation on the direct-current uniform discharge ignited by a dielectric barrier discharge at atmospheric pressure. Spectroscopy and Spectral Analysis 38 (3) 722-726 (2018), WoS, SCOPUS
(2018)
------------- | | 7.) | J. KHUN, V. Scholtz, P. Hozak, P. Fitl, J. Julak: Various DC driven point-to-plain discharges as non-thermal plasma sources and their bactericidal effects, Plasma Sources Sci. Technol. 27 (6), 065002 (2018), WoS, SCOPUS
(2018)
------------- | | 8.) | Li X., Li J., Chu J., Zhang P., Jia P.: A linear-field plasma jet for generating a brush-shaped laminar plume at atmospheric pressure. Physics Plasmas 23 (6) 063521 (2016), WoS, SCOPUS
(2016)
------------- | | 9.) | Prevosto L., Kelly H., Mancinelli B.: Modelling of an atmospheric pressure nitrogen glow discharge operating in high-gas temperature regimes. Plasma Chem. Plasma Process. 36 (4) 973-992 (2016), WoS, SCOPUS
(2016)
------------- | | 10.) | Li X., Bao W., Chu J., Zhang P., Jia P.: A uniform laminar air plasma plume with large volume excited by an alternating current voltage. Plasma Sources Science Technol. 24 (6) 065020 (2015), WoS, SCOPUS
(2015)
------------- | | 11.) | Li X., Jia P., Di C., Bao W., Zhang C.: Effects of gas flow rate on the discharge characteristics of a DC excited plasma jet. Plasma Science Technology 17 (9) 738-742 (2015), WoS, SCOPUS
(2015)
------------- | | 12.) | Liu S.H., Jia P.Y., Di C., Li X.C., Yang F.: Glow discharge characteristics of hollow needle-plate electrode in atmospheric pressure argon. Spectroscopy Spectral Analysis 35 (9) 2473-2477 (2015), WoS, SCOPUS
(2015)
------------- | | 13.) | Li X.; Bao W; Zhao H; Jia PY: Diagnosis on the Plasma Parameters of an Atmospheric Pressure Uniform Discharge Operated in Open Air, J. PHYSICAL SOCIETY OF JAPAN 83(2) 024502 (2014), SCI
(2014)
------------- | | 14.) | Lu X.: On atmospheric pressure nonequilibrium plasma jets. Low Temperature Plasma Technology: Methods and Applications. Boca Raton: CRC Press-Taylor & Francis Group, 173-206 - BKCI-S (2014), SCOPUS
(2014)
------------- | | 15.) | Farahat A.M., Ramadan E.: Evolution of small-space plasma in a microthruster designed for small spacecraft. Plasma Physics Reports 40, 981-986 (2014), WoS, SCOPUS
(2014)
------------- | | 16.) | Liu ZQ, Jia PY, Liu T: Spatial distribution of electrons with high energy in atmospheric pressure glow discharge excited by DC voltage, Spectroscopy and Spectral Analysis 33(09) 2321-2324 (2013), ISSN: 1000-0593, SCOPUS cit. 9
(2013)
------------- | | 17.) | Li X., Liu R., Jia P., Bao W., Shang Y.: Self-pulsing discharge of a plasma brush operated in atmospheric-pressure argon, EPL 102 (2013) 55003, SCOPUS cit. 23
(2013)
------------- | | 18.) | Li XC; Zhao HH; Jia PY: Characteristics of a Normal Glow Discharge Excited by DC Voltage in Atmospheric Pressure Air, PLASMA SCI. TECHNOL. 15 (11) 1149-1153 (2013), SCI
(2013)
------------- | | 19.) | Lu X.; Laroussi M.; Puech V. : On atmospheric-pressure non-equilibrium plasma jets and plasma bullets, Plasma Sci. Technol. 21 (2012) 034005, SCI
(2012)
------------- | | 20.) | Li XC; Jia PY; Yuan N; Yang BZ: Spectral Intensity Distribution of Oxygen Atom in a Plasma Plume, SPECTROSCOPY AND SPECTRAL ANALYSIS 32 (2012) 890-892, SCI
(2012)
------------- | | 21.) | I. Prysyazhnevych, V. Chernyak, V. Yukhymenko: Influence of the discharge current and gas flow rate on the non-equilibrium level of plasma of the transverse arc in air at atmospheric pressure, ESCAMPIG XXI, Viana do Castelo, Portugal, July 10-14 (2012), cit. 3
(2012)
------------- | | 22.) | I.V. Prysiazhnevych, Eu.V. Martysh, T.E. Lisitchenko: ELECTRIC DISCHARGE IN THE TRANSVERSE AIR FLOW AT ATMOSPHERIC PRESSURE, ВАНТ (2012) No 6(82) 93-95, ISSN 1562-6016, cit. 6
(2012)
------------- | | 23.) | Prysiazhnevych I. V.; Martysh Eu V.; Lisitchenko T. E.: Electric discharge in the transverse air flow at atmospheric pressure, Problems Atom. Sci. Technol. 6 (2012) 93-95, SCI
(2012)
------------- | | 24.) | L. Bin, C. Qiang, L. Zhong-Wei, W. Zheng-Duo: A Large Gap of Atmospheric Pressure RF-DBD Glow Discharges in Ar and Mixed Gases, Chinese Phys. Lett. 28, (2011) 015201 – SCI
(2011)
------------- | | 25.) | Li XC; Yuan N; Jia PY; Chang YY, Ji YF: Characteristics of atmospheric pressure air uniform discharge generated by a plasma needle, ACTA PHYSICA SINICA 60 (2011) 125204, SCI
(2011)
------------- | | 26.) | Wu, S., Lu, X., Xiong, Z., Pan, Y., A touchable pulsed air plasma plume driven by DC power supply, IEEE Transactions on Plasma Science 38 (12 PART 2), art. no. 5608509, pp. 3404-3408 - SCOPUS
(2010)
------------- | | 27.) | Stancu GD, Janda M, Kaddouri F, et al., Time-Resolved CRDS Measurements of the N-2(A(3)Sigma(+)(u)) Density Produced by Nanosecond Discharges in Atmospheric Pressure Nitrogen and Air, J PHYSICAL CHEMISTRY A 114 (1), 201-208, (2010) – SCI
(2010)
------------- | | 28.) | M. Jugroot: Neutral gas heating in helium microplasmas, J. Appl. Phys. 105 (2): Art. No. 023304 (2009), SCI cit
(2009)
------------- | | 29.) | M. Jugroot: Self-Consistent Simulations of Plasma and Gas Dynamics in Microplasmas with Metallic and Dielectric Electrodes, Plasma Process. Polym. 6 (2009) 360-369, SCI cit. 20
(2009)
------------- | | 30.) | X. Li, XM Tao, YX Yin: An Atmospheric-Pressure Glow-Discharge Plasma Jet and Its Application, IEEE Trans. Plasma Sci. 37 (2009) 759-763, SCI cit. 3
(2009)
------------- | | 31.) | Prysiazhnevych I. V.; Chernyak V. Ya.; Yukhymenko V. V.; Olshewskii S. V.; Lisitchenko T. E.: Problems Atom. Sci. Technol. 1 (2009) 168-170
(2009)
------------- | | 32.) | X. Li, C. Tang, X. Dai, Y. Yin: Study of Atmospheric Pressure Abnormal Glow Discharge, Plasma Sci. Technol. 10, No.2 (2008) 185-188, SCI cit. 6
(2008)
------------- | | 33.) | I. Prysyazhnevych, V. Chernyak, J.D. Skalný, Š. Matejčík, V. Yukhymenko, S. Olszewsky, V. Naumov: Sources of Nonequilibrium Plasma at Atmospheric Pressure, Ukr. J. Phys. 53, No.5 (2008) 472-476, SCOPUS cit. 5
(2008)
------------- | | 34.) | I. Prysyazhnevych, V. Chernyak, S. Olszewsky, V. Yukhymenko: Plasma Properties of Transverse Blowing Arc under Atmospheric Pressure, Chem. Listy 102 (2008) s1403-1407, cit. 5
(2008)
------------- | | 35.) | I. Prysyazhnevych, V. Chernyak, S. Olszewsky, V. Yukhymenko: Plasma Properties of Transverse Arc at Atmospheric Pressure, 6th International Symposium on Electromagnetic Devices and Processes in Environment Protection ELMECO-6, Nałęczów (Poland), June 2008, cit. 5
(2008)
------------- | | 36.) | P.S. Kothnur and L. L. Raja: Simulation of Direct-Current Microdischarges for Application in Electro-Thermal Class of Small Satellite Propulsion Devices, Contrib. Plasma Phys. 47, No. 1-2, 9 – 18 (2007), SCI cit. 26
(2007)
------------- | | 37.) | R. Morent, C. Leys, J. Dewulf, D. Neirynck, J. Van Durme, H. Van Langenhove: DC-excited non-thermal plasmas for VOC abatement, J. Advanced Oxid.Technol. 10, 1 (2007) 127-136, SCI cit. 42
(2007)
------------- | | 38.) | P.S. Kothnur: Simulation of Direct Current Microdischarges for Microthruster Applications, PhD. thesis, University of Texas in Austin, USA, 2005
(2005)
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