波粒二象性

WhichWay实验，波粒二象性的可能破缺和新的二象性

" Which Way " experiments , possible breaking of wave-particle duality and new duality

关于微观粒子波粒二象性的新解释与检验实验

New explanation about wave-particle duality in microcosm and test experiment

用反康普顿效应演示光的波粒二象性

Demonstration of the wave-particle dualism of light by Anti-Compton effect

从光的波粒二象性解释引力红移现象

The wave and particle explanations on the phenomenon of gravitation red shift

波粒二象性应用于光子上。

Wave particle duality had been applied to photons .

光存在波粒二象性之外的新特性

Light has a new character beyond the wave-particle duality

如何描述光的波粒二象性？

How to describe the wave-particle duality of light ?

原子物理教学中波粒二象性的讨论

The discussion about the WAVE-PARTICAL duality in the process of atomical Physics Teaching

基于波粒二象性的量子光通信系统的研究

A study of modulating quantum optical communication system

波粒二象性的信息熵解释

Explanation of information entropy of wave particle duality

给出四维空间、五维空间、波粒二象性的直观图景。

Directly perceivaibe images of four-and five dimentional space and wave particle duality are given .

波粒二象性与劳动二重性

Wave-Particle Duality and Duality of Labor

这就证实了德布罗意的观点，也证实了，波粒二象性的原理。

So this validates de Broglie and it also validates the whole concept of wave-particle duality .

波粒二象性的哲学思考

Philosophy Thought of Wave-Particle Duality

爱因斯坦在该领域的重大发现，解决了与光的波粒二象性有关的复杂问题。

Einstein 's crucial work in this area resolved perplexing questions regarding the particle-wave duality of light .

通过自发参量下转换产生双光子源，得到高阶波粒二象性关系。

Two-photon source generated by spontaneous parametric down-conversion to , obtained high-order wave-particle duality relations . 3 .

电磁辐射的认识经历了微粒说、波动说、波粒二象性的过程。

The understanding of electromagnetic radiation underwent particle theory , wave theory , wave - particle theory .

以后的物理学发展表明：波粒二象性是整个微观世界的最基本的特征。

That the future development of physics : the wave-particle duality is the most basic micro-world features .

从信息的观点对薛定格方程以及波粒二象性等量子行为提出了一些新的解释。

Some quantum paradoxed as well as schrodinger 's equation are explained in the standpoint of information .

以双狭缝量子干涉实验为例说明光子的波粒二象性，量子纠缠现象。

It first illustrates the wave-particle dualism of photon and quantum entangle effect with the double-slit quantum interference experiment .

在量子力学中，存在波粒二象性，这样看来粒子特性可以描述为波。

In quantum mechanics , there is wave-particle duality so the properties of the particle can be described as a wave .

据说这东西的这种设计还体现了物理学的一条很重要的原理&波粒二象性。

Dual property of a when allegedly this kind of design of this thing still reflected physics very principal bead of principle & wave .

热力学定律与波粒二象性和相对论这两个核心概念得到的频次相对最低。

Two core ideas of " Laws of thermodynamics " and " wave-particle duality and the theory of relativity " get relatively minimum frequency .

微观粒子波粒二象性理论的提出在物理学的发展史上具有重要意义。

It is of importance to put forward the theory of the wave particle duality of the microcosmic particle in the development of physics .

由于波粒二象性，微观系统的状态不象经典系统那样可以完全确定。

Due to the wave particle duality , the state of a quantum system is not quite as definite as that of a classical system .

从光的波粒二象性出发，分别根据光波的能量守恒定律及光子出现的概率密度与电场强度的平方成正比，推导出光吸收的朗伯定律。

From the wave-particle duality , we can deduce the Lambert law of light absorption according to the light waves energy and probability of photon .

建议设计实验测量德布罗意波的相速度，深入研究波粒二象性。

Author suggests that it is necessary to design experiments to measure the phase velocity of de Broglie wave and to study the wave-particle duality deeply .

对电子的波粒二象性和测不准原理进行了新的理论解释，并讨论了波粒二象性和测不准现象的物理模型。该模型与电子的微观可区分性相一致。

Wave-particle dualism and the uncertainty principle of electron can be explained by new theory , and their physical model is consistent with the distinguishability nature of electrons .

用光子计数仪作光强检测装置，通过测量衍射后的光子计数的空间分布来演示光的波粒二象性。

Using a photon counting apparatus as a device to measure light intensity , wave particle dualism of light is demonstrated by measuring photon distribution of double slit diffraction .

爱因斯坦最初提出光量子的波粒二象性，对量子现象进行了探讨，在关于量子现象的描述中，提出了与哥本哈根学派不同的观点。

Einstein initially brought forward wave particle duality of photons , and discussed quantum phenomena , brought forward viewpoint different from the Copenhagen School 's in describing the quantum phenomena .