通过对该模型的分析表明:ccm单元内电极间的间隙越小,电荷倍增率越大。
The analysis of this model shows that if the interelectrode gap length in the CCM elements decreases, the rate of the charge multiplication increases.
一种是基于面电荷的方法,另一种是基于求雪崩倍增因子的方法。
One is based on the charge sheet approach, the other is based on calculating a multiplication factor.
在固体成像器件中嵌入可控的全固态电荷雪崩倍增寄存器,使信号电荷在读出过程中得到雪崩增强,实现高灵敏度成像探测。
The all-solid charge avalanche multiplying registers are incorporated into the device, and signal charges are multiplied during the readout process. Thus the gaze-imaging is realized.
电势分布沿信号电荷密度流方向衰减且电荷载流子倍增寄存器工作频率越高,电势衰减越快。
It is attenuated along the direction of charge density. The higher the CCM frequency is, the sooner the potential attenuation is.
电势分布沿信号电荷密度流方向衰减且电荷载流子倍增寄存器工作频率越高,电势衰减越快。
It is attenuated along the direction of charge density. The higher the CCM frequency is, the sooner the potential attenuation is.
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