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利用交流等离子体显示器(ACPDP)单元放电的一维流体模型,对一些放电敏感参量,如电介质层的介电常数及厚度、所充气体的压强、放电间隙的距离以及保护膜材料的二次电子发射系数等对ACPDP单元放电特性的影响进行了系统地分析和研究.在计算过程中,假定放电气体为He,且处于局域平衡状态,各种粒子的反应几率设为E/P的函数,通过稳态Boltzmann方程解出.
Using the one-dimensional fluid model discharged by the alternating current plasma display (ACPDP) unit, some discharge-sensitive parameters such as the dielectric constant and thickness of the dielectric layer, the pressure of the charged gas, the distance of the discharge gap and the secondary electrons Emission coefficient on the discharge characteristics of ACPDP unit were systematically analyzed and studied. In the calculation process, assuming that the discharge gas is He and is in a local equilibrium state, the reaction probability of various particles is set as a function of E / P and is solved by the steady-state Boltzmann equation.