1) Non-dissipation mesoscopic circuit with source
非耗散介观含源电路
2) dissipative mesoscopic circuit
耗散介观电路
1.
On the basis of the charge quantization,the quantum fluctuations of the charge,the current and the energy in the dissipative mesoscopic circuit are calculated by the character of the minimum shift operator.
基于电荷离散化的事实,应用最小平移算符的性质,计算耗散介观电路中电荷、电流及能量的量子涨落。
4) dissipative mesoscopic capacitance coupling circuit
耗散介观电容耦合电路
1.
Quantization of dissipative mesoscopic capacitance coupling circuit;
耗散介观电容耦合电路的量子化
2.
From the classical equation of motion for a dissipative mesoscopic capacitance coupling circuit,the quantum fluctuations of charge and current of the circuits are investigated in occupation number representation.
从经典耗散介观电容耦合电路出发,研究了耗散介观电容耦合电路,在占有数表象中,计算了每个回路的电荷和电流的量子涨落。
6) mesoscopic dissipative parallel LC circuit
介观耗散LC并联电路
补充资料:无源逆变电路
出端交流电能直接输向用电设备的逆变电路。生产实践中常要求把工频交流电能或直流电能变换成频率和电压都可调节的交流电能供给负载,这就需要采用无源逆变电路。在电力电子电路中,除指明为有源逆变电路者外,均为无源逆变电路。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条