对P型基底均匀掺杂的情况下电子轰击有源像素传感器(EBAPS)的电荷收集效率进行了理论模拟研究,依据低能电子与固体的相互作用模型结合Monte-Carlo计算方法模拟了光电子入射到死层和倍增层中的运动轨迹,并分析了经过死层后的能量损失率...对P型基底均匀掺杂的情况下电子轰击有源像素传感器(EBAPS)的电荷收集效率进行了理论模拟研究,依据低能电子与固体的相互作用模型结合Monte-Carlo计算方法模拟了光电子入射到死层和倍增层中的运动轨迹,并分析了经过死层后的能量损失率所受影响因素;依据半导体理论研究了P型基底掺杂浓度、膜厚、入射电子能量对电荷收集效率的影响因素。最终获得的电荷收集效率理论模拟结果与已报道的(4 ke V,均匀掺杂的EPAPS)实测的结果较为相符,表明此文的模拟结果可以为高增益的EBAPS的制作提供理论指导。展开更多
The observed loss rate of both particles and energy from hot confined toroidal plasmas is much higher than the one predicted by neoclassical transport theory, which depends upon mean plasma parameters and Coulomb coll...The observed loss rate of both particles and energy from hot confined toroidal plasmas is much higher than the one predicted by neoclassical transport theory, which depends upon mean plasma parameters and Coulomb collisions. Many types of plasma turbulence have been proposed to explain anomalous plasma transport. The fluctuation of plasma parameters around their mean values can cause transport through electrostatic or magnetic fluctuations .The fluctuation driven radial particle flux is given展开更多
文摘对P型基底均匀掺杂的情况下电子轰击有源像素传感器(EBAPS)的电荷收集效率进行了理论模拟研究,依据低能电子与固体的相互作用模型结合Monte-Carlo计算方法模拟了光电子入射到死层和倍增层中的运动轨迹,并分析了经过死层后的能量损失率所受影响因素;依据半导体理论研究了P型基底掺杂浓度、膜厚、入射电子能量对电荷收集效率的影响因素。最终获得的电荷收集效率理论模拟结果与已报道的(4 ke V,均匀掺杂的EPAPS)实测的结果较为相符,表明此文的模拟结果可以为高增益的EBAPS的制作提供理论指导。
文摘The observed loss rate of both particles and energy from hot confined toroidal plasmas is much higher than the one predicted by neoclassical transport theory, which depends upon mean plasma parameters and Coulomb collisions. Many types of plasma turbulence have been proposed to explain anomalous plasma transport. The fluctuation of plasma parameters around their mean values can cause transport through electrostatic or magnetic fluctuations .The fluctuation driven radial particle flux is given