光电子技术
光電子技術
광전자기술
OPTOELECTRONIC TECHNOLOGY
2010年
1期
16-21
,共6页
粒子网络-蒙特卡罗碰撞%大电极间距%正柱区%发光效率
粒子網絡-矇特卡囉踫撞%大電極間距%正柱區%髮光效率
입자망락-몽특잡라팽당%대전겁간거%정주구%발광효솔
PIC-MCC%long electrode gap%positive column region%luminous efficacy
采用粒子网格-蒙特卡罗碰撞(PIC-MCC)方法对等离子体平板背光源单元的放电过程进行了数值模拟,获得了放电过程中各带电粒子在空间区域的分布以及各区域的形成和性质,并结合模拟结果,详细分析了等离子体平板背光源单元的放电特性.结果表明,放电单元采用大电极间距可获得正柱区放电,正柱区的形成是正离子在阴极鞘层区不断积累将电位抬高所致.通过增加电极间距以增加正柱区的长度,可以有效地改善放电特性,从而提高背光源的发光效率.
採用粒子網格-矇特卡囉踫撞(PIC-MCC)方法對等離子體平闆揹光源單元的放電過程進行瞭數值模擬,穫得瞭放電過程中各帶電粒子在空間區域的分佈以及各區域的形成和性質,併結閤模擬結果,詳細分析瞭等離子體平闆揹光源單元的放電特性.結果錶明,放電單元採用大電極間距可穫得正柱區放電,正柱區的形成是正離子在陰極鞘層區不斷積纍將電位抬高所緻.通過增加電極間距以增加正柱區的長度,可以有效地改善放電特性,從而提高揹光源的髮光效率.
채용입자망격-몽특잡라팽당(PIC-MCC)방법대등리자체평판배광원단원적방전과정진행료수치모의,획득료방전과정중각대전입자재공간구역적분포이급각구역적형성화성질,병결합모의결과,상세분석료등리자체평판배광원단원적방전특성.결과표명,방전단원채용대전겁간거가획득정주구방전,정주구적형성시정리자재음겁초층구불단적루장전위태고소치.통과증가전겁간거이증가정주구적장도,가이유효지개선방전특성,종이제고배광원적발광효솔.
The discharge process and the distribution of charged particles in a flat plasma backlight cell are simulated with particle in cell-Monte Carlo collision (PIC-MCC) method. Based on the above information, an analysis of the discharge characteristics is provided. The results show that the long electrode gap leads to the positive column which is caused by the climbing voltage on the cathode surface due to the accumulation of positive ions. It can improved the discharge performance for longer electrode gap and the luminous efficacy is increased. Although the luminance falls under lower sustain voltage, the luminous efficacy is increased.
