1) Quantum unitary transformation
量子么正变换
2) unitary transformation
么正变换
1.
Starting from the classical motion equation of a domain wall in the ferromagnetic system, the analytic wavefunction was obtained by using canonical quantization method and unitary transformation.
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 。
2.
It can not eliminate through the unitary transformation or the re\|definition of the wave function.
评述并证明了在场强为零势不为零的复连通区域 ,规范势沿入射粒子运动闭合路径的不可积积分是贝里几何位相 ,通过么正变换或重新定义波函数不能除去
3) Quantum Canonical Transformation(QCT)
量子正则变换
4) local unitary equivalence
局部么正变换
5) quantum transformation
量子变换
1.
Theory of linear quantum transformation and its application;
量子变换理论及其应用概述
2.
By the aid of the linear quantum transformation theory, we derive the analytic expression of the partition function for the quadratic systems.
利用量子变换理论,给出了多维相空间中二次型系统配分函数的解析表达式,利用这一公式,可以在不知系统能谱的情况下,非常方便地得到系统的配分函数。
3.
By the aid of the linear quantum transformation (LQT) theory, we give a concise diagonalization for n-mode boson and fermion of quadratic Hamiltonian.
借助线性量子变换(LQT)理论,对n模玻色和费米子的二次型哈密顿量,我们给出了简洁的对角化形式。
6) quantum Fourier transform
量子Fourier变换
1.
A decomposition of quantum Fourier transformation;
量子Fourier变换的分解
2.
Simulation of the multi-qubit quantum Fourier transform;
多量子位量子Fourier变换的仿真实现研究
3.
By using the circuit model which is the most representative in the study of quantum computing,the quantum computing process was simulated and two of the important quantum algorithms—the Deutsch s algorithm and the quantum Fourier transform were implemented.
采用量子计算研究中最具代表性的电路模型模拟量子计算过程,实现Deutsch算法和量子Fourier变换的演算,构建了量子信息与计算的仿真平台雏形。
补充资料:么么
【么么】
(杂语)Mama(一言声属声),译曰我之。演密钞八曰:“我字,梵音么么。”译语杂名曰:“我,么么。”
(杂语)Mama(一言声属声),译曰我之。演密钞八曰:“我字,梵音么么。”译语杂名曰:“我,么么。”
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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