Temporally-Resolved Emission Spectroscopic Diagnostics of the Atmospheric Pressure Glow Discharge in Helium  

作　　者：刘耀阁 郝艳捧 郑彬 

机构地区：[1]School of Electric Power,South China University of Technology

出　　处：《Plasma Science and Technology》2013年第9期896-899,共4页等离子体科学和技术（英文版）

基　　金：supported by National Natural Science Foundation of China(No.50807018);the State Key Laboratory of Electrical Insulation and Power Equipment(EIPE 12203)

摘　　要：Temporally-resolved spectroscopic diagnostics of dielectric barrier discharges （DBDs） in atmospheric-pressure helium was carried out to study the discharge mechanism. Using an intensified charge-coupled device （ICCD） and a grating spectrometer, we obtained the emission spectra of homogeneous discharges and presented them in 3D graphs. We also studied the time variation of typical emissions from He, 0 and first negative bands of N＋_2. The results showedthat the spectral lines do not develop synchronously as-N_2（B_2∑U＋x2∑＋G,0～0,λ=391.4nm）and N＋2（B2∑＋u→X2∑＋g,0～1,λ=427.8nm） appear earlier and last for a longer time than He（3_3S1→2_3P1,λ=706.5nm）and O （3_P→3_5S,λ=777.4nm） A certain number of He metastables produced in the initial stage of discharge. Even between adjacent pulses, the emissions from N＋2 can still keep certain intensities while those from He and 0 extinguish. Since long-lifetime Hemetastables are produced and exist in the discharging space, it is the Penning ionization thatkeeps the long decay of N＋ emissions.Temporally-resolved spectroscopic diagnostics of dielectric barrier discharges （DBDs） in atmospheric-pressure helium was carried out to study the discharge mechanism. Using an intensified charge-coupled device （ICCD） and a grating spectrometer, we obtained the emission spectra of homogeneous discharges and presented them in 3D graphs. We also studied the time variation of typical emissions from He, 0 and first negative bands of N＋_2. The results showedthat the spectral lines do not develop synchronously as-N_2（B_2∑U＋x2∑＋G,0～0,λ=391.4nm）and N＋2（B2∑＋u→X2∑＋g,0～1,λ=427.8nm） appear earlier and last for a longer time than He（3_3S1→2_3P1,λ=706.5nm）and O （3_P→3_5S,λ=777.4nm） A certain number of He metastables produced in the initial stage of discharge. Even between adjacent pulses, the emissions from N＋2 can still keep certain intensities while those from He and 0 extinguish. Since long-lifetime Hemetastables are produced and exist in the discharging space, it is the Penning ionization thatkeeps the long decay of N＋ emissions.

关 键 词：dielectric barrier discharge HELIUM emission spectra metastables Penningionization 

分 类 号：O461.21[理学—电子物理学]