1.
Quantum Entanglement and Nonlocality of Multiphoton Entangled States;
多光子纠缠态的量子纠缠与量子非局域性
2.
The Effects of Cavity Dissipation on Quantum Nonlocality and Purity of Quantum State in Atom-Field Coupling System;
腔场损耗对原子——场耦合系统中量子非局域性及量子态纯度的影响
3.
Preparation, Application and Nonlocality of Quantum Entangled States
量子纠缠态的制备、应用及非局域性
4.
Study on Incoherent Solitons in Strong Nonlocal Nonlinear Media
强非局域非线性介质中的非相干孤子研究
5.
The Propagation of Incoherent Solitons in Nonlocal Nonlinear Media;
非相干孤子在非局域介质中传输特性的研究
6.
The Interaction of Multi-solitons in Strong Nonlocal Media;
强非局域非线性介质中多孤子的相互作用
7.
Rotating azimuthon in strongly nonlocal nonlinear media
强非局域非线性介质中的旋转涡旋光孤子
8.
Nonlocality and Atom-Field Coupling System;
原子一场耦合系统中的非局域性和线性熵
9.
Propagation Properies Spatial Optical Solitons with an Arbitrary Degrees of Nonlocality in Different Nonlinear Nonlocal Media;
任意非局域程度下空间光学孤子在不同的非局域非线性介质中的传输特性
10.
Therefore the ghost diffraction phenomenon is not an experimental evidence for quantum non-locality.
由此可以断定鬼衍射现象并不能作为量子力学非局域性存在的实验证明。
11.
A Theoretical Research for the Breathers and the Solitons Solutions in the Hermite-Gaussian Form of the Beam Propagating in the Strong Nonlocal Media;
强非局域非线性介质中的厄米高斯呼吸子及孤子理论研究
12.
The Philosophical Connotation and Meaning of Quantum Nonlocality;
量子非定域性概念的哲学内涵与意义
13.
Study of Multi-Linear Variable Separation and Localized Excitation in Soliton Systems;
孤子系统的多线性变量分离及其局域激发研究
14.
No quantum non-locality is involved in this case, because the photons are not spatially separated.
在这个实验中,非纠缠光子对空间上没有分离,因而不牵涉非局域性。
15.
Spatiotemporal Optical Soliton Solutions of One Coupled System in Nonlocal Nonlinear Media
非局域非线性介质中一个耦合系统的时空光孤子解
16.
Multi-linear Variable Separation Approach and Localized Excitations in Nonlinear Systems;
非线性系统中的多线性分离变量法和局域激发模式
17.
Study on Nonlinear Dynamic Characteristics and Application for Rotor System Based on Local Wave Method;
基于局域波法的转子系统非线性动态特性及应用研究
18.
Controlled implementation of a nonlocal and open-target destination quantum controlled-Not (CNOT) gate using partially entangled pairs
利用二粒子部分纠缠态实现开靶目标的非局域量子可控非(CNOT)门的受控操作