Fig. 1. Cell structure used in the simulation. 그림 1. 시뮬레이션에 사용된 방전셀의 구조
Fig. 2. Variation of discharge voltage as a function of electrode gap and frequency. 그림 2. 전극 간격과 주파수에 따른 방전 전압의 변화
Fig. 3. Variation of (a) luminance and (b) luminous efficacy as a function of electrode gap. 그림 3. 50kHz 구동 주파수에서 전극 간격에 따른 (a) 휘도와 (b) 발광효율의 변화
Fig. 4. Variation of the charged particles(electron, Xe+, Ne+, Xe2+, XeNe+) as a function of electrode gap. 그림 4. 전극 간격에 따른 하전입자들 (전자,Xe+, Ne+, Xe2+, XeNe+)의 변화
Fig. 5. Variation of the exciting particles(Xe*3P1, Xe*3P2, Xe2*, Xe**) as a function of electrode gap 그림 5. 전극 간격에 따른 여기입자들(Xe*3P1, Xe*3P2, Xe2*, Xe**)의 변화
Fig. 6. Variation of the VUV by 147㎚, 150㎚, 173㎚ as a function of electrode gap. 그림 6. 전극 간격에 따른 147㎚, 150㎚, 173㎚ 자외선의 변화
Table 1. the specification of test discharge cell. 표 1. 테스트 방전 셀의 스펙
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