摘要
在电荷不连续的前提下,利用介观电路的量子化方法,得到了有源介观RLC电路的有限差分薛定谔方程.通过幺正变换,系统的薛定谔方程转化为标准的马丢(Mathieu)方程形式,在WKBJ近似下,计算了系统的能谱和电流的零点量子涨落.
Based on the fundamental fact that the electric charge takes discrete value, the finite-differenced Schroedinger equation of the mesoscopic RLC circuit with a source is achieved. With a unitary transformation, the Schroedinger equation becomes the standard Mathieu equation. Using the WKBJ method, the energy spectrum and the wave functions of the system are obtained,the average of currents and square of the current are calculated, the results show the existence of the current fluctuation, which cause the noise in the circuits.
出处
《河北师范大学学报(自然科学版)》
CAS
北大核心
2005年第5期466-469,共4页
Journal of Hebei Normal University:Natural Science
基金
河北省自然科学基金资助项目(103143)
关键词
介观电路
马丢方程
量子涨落
mesoscopic circuit
Mathieu equation
quantum effect