量子力学和混沌理论都指出世界处在不断变化中。
Both quantum mechanics and chaos theory suggest a world constantly in flux.
它确实发生在量子力学中。
在本例中,我们利用了量子力学的叠加原理。
In this example, we exploited the quantum mechanics principle of superposition.
我们真的得问问自己,为什么量子力学是有限的?
We really have to ask ourselves, why is quantum mechanics limited?
他就是以那样一种方式建立了量子力学的另一种形式。
He set up in that way an alternative form of quantum mechanics.
如果这个模型显然没有考虑到量子力学,我们为什么要用它呢?
Why are we using this model if it clearly doesn't take into account quantum mechanics?
泡利说在一个给定的系统内,没有两个电子有完全相同的量子数。
Pauli says no two electrons in a given system can have the entire set of quantum numbers identical.
纳米晶体,也被称为量子点,是一种直径只有百万分之一毫米的半导体粒子。
Nanocrystals, also known as quantum dots, are semiconducting particles with a diameter of a few millionths of a millimeter.
然而,量子力学的预测只给出事件发生的概率,而不是事件是否会发生的确定性陈述。
The predictions of quantum mechanics, however, give only the probability of an event, not a deterministic statement of whether or not the event will occur.
由于这种概率性,爱因斯坦一生都强烈不满这个理论,尽管他并不认为量子力学是错误的。
Because of this probabilism, Einstein remained strongly dissatisfied with the theory throughout his life, though he did not maintain that quantum mechanics is wrong.
它们包括了“量子纠缠”,即影响一组原子的事件会立即影响另一组原子,不管相距有多远。
They include "quantum entanglement", in which events affecting one group of atoms instantly affect another group, no matter how far apart they may be.
为了目睹这种效应,物理学家首先需要吸出每一个可能的量子,让光束处于能量最小的“基态”。
To see such effects, physicists first have to suck out every possible quantum and leave a beam in its least-energetic "ground state".
量子力学是一种非常成功的理论:它提供了精确计算各种实验结果的方法,特别适用于微小粒子方面。
Quantum mechanics is a highly successful theory: it supplies methods for accurately calculating the results of diverse experiments, especially with minute particles.
令专业水准的科学家十分困惑的是,准宗教崇拜正围绕量子物理学、时空相对论、黑洞和大爆炸等不太可能的话题而形成。
Much to the bewilderment of professional scientists, quasi-religious cults are being formed around such unlikely topics as quantum physics, space-time relativity, black holes and the big bang.
爱因斯坦的想法在他死后的实验中得到了验证,由于这些实验大多支持传统的量子力学,爱因斯坦的方法几乎必然是错误的。
Einstein's ideas have been tested by experiments performed since his death, and as most of these experiments support traditional quantum mechanics, Einstein's approach is almost certainly erroneous.
在他的领导下,世界上第一颗量子通讯卫星于2016年8月被成功发射。
Under his leadership, the world's first quantum satellite was launched successfully in August 2016.
近年来,我国发射了世界上第一颗量子卫星,嫦娥四号实现了月球软着陆。
In recent years, our country has sent up the world's first quantum satellite, and Chang'e-4 has made a soft landing on the moon.
出现在肉眼面前的光亮,事实上是频率不同的光线的叠加。所以,这是量子化的。
What appears to the naked eye to be glowing is actually a superposition of different lines of distinct frequency. So, this is quantized.
研究人员首先在单晶体TiO2平面上制作一层或两层的单分子硒化铅量子点。
The researchers began by making samples of one or two monolayers of PbSe quantum dots deposited on flat single-crystalline TiO2.
量子特征可用正则量子化方式得到。
The quartal features can be obtained by the canonical procedure of quantization.
这些半经典量子化方法仅适用于可积体系。
Butsemi-classical quantized methods are applicable in integrabel system.
现在,回忆一下波尔量子理论。
但它在量子力学中就发生了。
还有什么比量子力学更神奇?
但是量子世界并不遵守这些。
作为人类也同时成为量子。
本例中,我们利用了量子力学的叠加原理。
In this example we exploited the quantum mechanics principle of superposition.
能量被量子化,速度被量子化。
所有一切都被量子化,能量被量子化。
这是个量子过程。
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