[1] Schoenbach K H,Verhappen R,Tessnow T,et al. Microhollow cathode discharge [J].Appl. Phys. Lett.,1996,68: 13-15.
[2] Schoenbach K H,Ahmed EI-Habachi,Shi W,et al. High-pressure hollow cathode discharge [J].Plasma Sources Science and Technology,1997,6: 468-477.
[3] Schoenbach K H,Moselhy M,Shi W,et al. Microhollow cathode discharge [J].Journal Vacuum Science and Technology A,2003,21: 1260-1265.
[4] Stark R H,Schoenbach K H. Direct current high-pressure glow discharges [J].J. of Appl. Phys.,1999,85: 2075-2080.
[5] Stark R H,Schoenbach K H. Direct current glow discharges in atmospheric air [J].Appl. Phys. Lett.,1999,74: 3770-3772.
[6] Mohamed A A H,Block R,et al. Direct current glow discharges in atmospheric air [J].IEEE Transactions on Plasma Science,2002,30: 182-183.
[7] Shi Wenhui,Stark R H,Schoenbach K H. Parallel operation of microhollow cathode discharges [J].IEEE Transactions on Plasma Science,1999,27: 16-17.
[8] Schoenbach K H,Ahmed El-Habachi,Moselhy M,et al. Microhollow cathode discharge excimer lamps [J].Physics of Plasmas,2000,7(5): 2186-2190.
[9] Xin Jianguo,Yao Shuna,Su Ning,et al. RF excited diffusively cooled all-metal slab wave-guide CO2 laser [J].Chin. Opt. Lett.,2005,3(2): 83-84.
[12] Chapman B. Glow Discharge Process [M].John Wiley & Sons,Inc.,1980.
[13] White A D. New hollow cathode discharge [J].J. of Appl. Phys.,1959,30: 711-718.