正则量子化

AbelChern-Simons项与复标量场耦合系统的正则量子化

Canonical Quantization of the Complex Scalar Field Coupled to the Abel Chern-Simons Term

规范场的正则量子化（Ⅱ）&自发破缺规范场

Canonical quantization of gauge fields (ⅱ) & spontaneously broken gauge fields

规范场的正则量子化（Ⅰ）&纯杨-Mills场

Canonical quantization of gauge fields ( I ) & the Yang-Mills field

电磁场正则量子化方法的协变性证明

The Proof of Covariance for Canonical Quantization 's Approach to Electromagnetic Field

规范场的正则量子化（Ⅲ）&引力场

Canonical quantization of gauge fields (ⅲ) & gravitational field

用正则量子化方法将介观互感容感耦合双谐振电路量子化。

A mesoscopic double resonance circuit with mutual inductance and capacitance-inductance coupling was quantized using canonical quantization method .

本文叙述路径积分量子化方法及其与正则量子化的等价性；

This paper gives an account of the method of the path integral quantization and the importance of the canonical .

从铁磁畴的能量方程出发，利用正则量子化方法和么正变换技术，解析地求得了磁畴量子化运动的波函数。

By the aid of the linear quantum transformation theory , we derive the analytic expression of the partition function for the quadratic systems .

利用色散吸收介质中电磁场的正则量子化方法，研究等离子体加载对色散吸收介质光腔系统量子性质的影响。

The influence of the plasma loading on the quantum character of absorbing and dispersive cavity is investigated by the canonical quantum method of the electromagnetic field .

借助系统经典格林函数，运用正则量子化方法，对平面分区均匀色散吸收介质中电磁场进行量子化。

The photic field in the plane divisional uniform absorbing and dispersive dielectrics is quantized by the canonical quantum theory and the classical Green 's function of the system .

利用核十六极形变最普遍的参数化形式，通过正则量子化程序，导出了参数空间十六极振动的量子化哈密顿量，分析了十六极形变和振动对于核结构研究的重要意义。

The quantized Hamiltonian is derived from the general parametral form of the hexadecapole Vibration in the space of parameter , which maybe important to analyze properties of nuclear stature .

推导过程中得到的公式表明，为了把引力场正则量子化，给引力场方程引入一个标量函数作为宇宙因子是必要的。

The equation obtained in the derivative process shows that , it is necessary to introduce a scalar function as the cosmological factor into the gravitational equation in order to quantize canonically the gravitational filed .

以往从电荷的经典运动方程出发，通过变量代换的正则量子化方法，相当于将这里高温极限的结果应用到了低温情况。

The former canonical quantization method , which starts from the classical equation of the electric charge and makes some transformations , this corresponds to applying the result of high temperature limit to the lower temperature case .

该文基于介观电路中电荷应是量子化的这一事实，应用正则量子化方法给出了介观耗散电容耦合电路的量子化方法和库仑阻塞条件。

Based on the fact that the charge is quantized in a dissipative mesoscopic capacitance coupling circuit , the quantum theory of the mesoscopic capacitance coupling circuit and the condition for Coulomb blockade ( CCB ) are given by using canonical quantization method .

从有源RLC电路的运动方程出发，对电荷、电流经正则变换后量子化；

Starting from equation of motion of the active RLC circuit , we adopt the technique of the unitary transformation , transform the charge and current into the unitary variable and then have the quantization .