1900年,普朗克为了解决经典理论解释黑体辐射规律的困难,引入了能量子(quantum of energy)的概念,为量子理论奠定了基础.
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这个基本部件,普朗克把它称作“能量子”(Energieelement),但随后很快,在另一篇论文里,他就改称为“量子”(Elementarquantum),英语就是quantum。
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一种电磁能量子 photon
低能量子 low-energy quantum
电子能量损失谱 Electron energy loss spectroscopy ; EELS ; electron energy loss spectrum ; electron energy-loss spectrometry
多普勒能量子 Doppleron
能量算子 energy operator ; TEO ; Teager energy operator
量子能量 energy of a quantum ; quantum energy
量子能 quantum energy ; quantum energy,quantum energy ; Quantum Power
能量量子 energyquantum ; energy quanta
原子能量 nuclear energy ; atomic energy
同时又从电的转化的角度论证了电磁波是由同一种更微小的能量子组成。
Meanwhile, it also expounds and proves that electromagnetic waves is made up of smaller quanta in terms of facts.
我也并不孤单——我曾见过他成功地向阿诺·施瓦辛格解释了高能量子物理学。
And I'm not alone - I've witnessed him successfully explain high-energy particle physics to Arnold Schwarzenegger as well.
但这确实是实现不会泄密的通信系统以及建造超高速高能量子计算机之路上的首个巨大进步。
But it's a big first step down a road that could produce unhackable communications schemes and superfast, energy efficient quantum computers.
You see, the quantum condition, by putting quantization into the moangular mentum it is propagated through the entire system. Orbit dimensions are quantized.
你们看,量子条件,通过把,角动量量子化,它就能在这个系统中进行传播,同时轨道大小也被量子化。
We can not do that with quantum mechanics, the more true picture is the best we can get to is talk about what the probability is of finding the electron at any given nucleus.
在量子力学里我们不这样做,我们能得到的更加真实的图像,是关于在某处,找到电子的概率。
Charge is quantized. And, secondly,he was able to measure the value of the elemental charge.
电荷是量子化的,第二,他能,测量出电荷基本的量值。
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