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Lingli HONG, Zhaoquan CHEN, Jie YANG, Tao CHENG, Sile CHEN, Yuming ZHOU, Bing WANG, Xinpei LU. Ionization process and distinctive characteristic of atmospheric pressure cold plasma jet driven resonantly by microwave pulses[J]. Plasma Science and Technology, 2022, 24(10): 105401. DOI: 10.1088/2058-6272/ac66bc
Citation: Lingli HONG, Zhaoquan CHEN, Jie YANG, Tao CHENG, Sile CHEN, Yuming ZHOU, Bing WANG, Xinpei LU. Ionization process and distinctive characteristic of atmospheric pressure cold plasma jet driven resonantly by microwave pulses[J]. Plasma Science and Technology, 2022, 24(10): 105401. DOI: 10.1088/2058-6272/ac66bc

Ionization process and distinctive characteristic of atmospheric pressure cold plasma jet driven resonantly by microwave pulses

  • In the present study, a coaxial transmission line resonator is constructed, which is always capable of generating cold microwave plasma jet plumes in ambient air in spite of using argon, nitrogen, or even air, respectively. Although the different kinds of working gas induce the different discharge performance, their ionization processes all indicate that the ionization enhancement has taken place twice in each pulsed periods, and the electron densities measured by the method of microwave Rayleigh scattering are higher than the amplitude order of 1018 m−3. The tail region of plasma jets all contain a large number of active particles, like NO, O, emitted photons, etc, but without O3. The formation mechanism and the distinctive characteristics are attributed to the resonance excitation of the locally enhanced electric fields, the ionization wave propulsion, and the temporal and spatial distribution of different particles in the pulsed microwave plasma jets. The parameters of plasma jet could be modulated by adjusting microwave power, modulation pulse parameters (modulation frequency and duty ratio), gas type and its flow rate, according to the requirements of application scenarios.
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