Wave particle duality had been applied to photons.
波粒二象性应用于光子上。
To site an example, the famous "wave particle duality", where an object is both a wave and a particle simultaneously.
类似的困难也存在与现代物理学中。举个例子,著名的“波粒二象性”,一个客体同时即是波又是粒子。
Rather than explaining away the wave-particle duality in favor of one or the other extreme, Bohr incorporated it into the very interpretation of quantum mechanics.
波尔没有在偏向一方或另一方的极端中阐述波粒二象性,而是把它融进了量子力学的专门诠释中。
The most famous duality in physics is the wave-particle duality. This one states that matter has both wave-like and particle-like properties.
在物理学上最著名的二元性例子就是波粒二象性,这表明物同时具有波和粒两种属性。
Bohr found that an electron has the qualities of both a particle and a wave, a concept known as wave-particle duality, which has become a cornerstone of quantum physics.
玻尔发现电子同时具有粒子和波的性质,这便是波粒二象性。波粒二象性构成了量子物理学的基石。
The double solutions correspond possibly to the wave-particle duality in quantum theory, and connect the double solution theory of the nonlinear wave mechanics.
双解可能对应于量子理论中的波-粒二象性,联系于非线性波动力学的双重解。
Optical interconnection technique is a kind of theory using photon wave-particle duality phenomenon to achieve the signal transmission and data exchange.
光互连技术是以光的波粒二相性的各种现象实现信号传输和数据交换的理论。
So this validates de Broglie and it also validates the whole concept of wave-particle duality.
这就证实了德布罗意的观点,也证实了,波粒二象性的原理。
French physicist DE Broglie wave-particle duality of light based on the bold inference: all physical particles have wave-particle duality.
法国物理学家德布罗意在光的波粒二象性的基础上大胆推断:一切实物粒子都具有波粒二象性。
The papar calls scientits′ attention to that, the wave-particle duality theory established depond on the wavelength being small enough, but the demarcation line is not clear.
指出,虽然波粒二象性成立的前提是波长足够小,但在现有理论中却提不出一条清晰的界线。
For long time, people do not understand why there is wave-particle duality of light?
一直以来,人们无法理解为什么光有波粒二象性?
How to describe the wave-particle duality of light?
如何描述光的波粒二象性?
Such as blackbody radiation and photoelectric effect of light also has revealed the phenomenon of particle, ie, with wave-particle duality of light.
黑体辐射和光电效应等现象揭示了光还具有微粒性,即光具有波粒二象性。
From the wave-particle duality, we can deduce the Lambert law of light absorption according to the light waves energy and probability of photon.
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.
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。
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