少量氩气对大气介质阻挡放电光谱的增强

采用双水电极介质阻挡放电装置,测量了大气介质阻挡放电的光谱,并研究了加入少量氩气后光谱的变化。在300~800 nm波长范围内,发现了氮分子(C3Πu(v′=0)→B3Πg(v″=0~4))的光谱和氮原子(4d4D7/2→3p4P01/2)的光谱。在大气中加入少量氩气后,击穿电压明显降低,在相同电压条件下,氮分子光谱线和氮原子光谱线强度都增强。同时,加入氩气后上述谱线的半宽度明显加大。由于谱线的Stark加宽与电子密度成正比,说明加入氩气后等离子体的电子密度增大,使得电子碰撞激发氮分子及氮原子的概率增大,激发到较高激发态的氮原子或氮分子增多,从而使光谱强度增强。

Spectrum of Dielectric Barrier Discharge at Atmospheric Pressure Intensified by Mixing a Little Argon

In this paper, the spectrum of dielectric barrier discharge at atmospheric pressure was measured by using the special setup with two water electrodes. The variation of spectrum was studied when a little argon was mixed. Nitrogen molecular spectrum (C3 IIu(v' = 0 ) --> B3 IIg(v" = 0-4)) and nitrogen atomic spectrum(4d(4) D7/2 --> 3p(4)P1/2(0)) were found in the range of 300-800nm. After a little argon was mixed, the breakdown voltage of discharge obviously decreased. The spectral line intensities of nitrogen molecules and nitrogen atoms increased. The full width at half maximum (FWHM) of spectral line was obviously broadened. Because Stark broadening is a linear function of electron density, it can be seen that electron density increased after a little argon was mixed with the air, which caused the probability of excitation collision of N2 and N with electrons to increase, and the number of N2 and N excited to higher excitation state to increase. So the intensity of spectrum was intensified.