但是量子世界并不遵守这些。
这样量子世界最内在的本质将得以检验。
当a被测量,那么根据量子世界中的古怪规则,先前被编码到A中的信息就会消失。
When a is measured, the information that had been previously encoded on it disappears in accordance with the quirky rules of the quantum world.
与此针锋相对的观点则认为,量子世界的全部可能性永远真实不灭,因此,也就有多个世界存在。
A rival to this view is that the many possibilities of the quantum world all continue to be real and that there are thus many worlds.
量子世界的一个小小的令人惊奇的是一种被称作叠加态的状态。在这种状态下,一个粒子可以同时占据着两种状态。
One of the marvelous little wrinkles of the quantum world is a condition known as superposition, in which a particle can occupy two states at the same time.
“哥本哈根阐释”认为,量子世界的多种可能性坍塌瓦解为经典物理的唯一确定性之际,世界人民的体验也随之确定。
The "Copenhagen interpretation" says that the world people experience is decided upon when the many possibilities of the quantum world collapse to become the certainty of the classical one.
电流可以通过这些间隔——这是量子世界的又一种特性,波粒可以在不破坏障碍的情况下,得以轻松穿越。
A current can 'tunnel' across these gaps - another special property of the quantum world, where waves and particles can cross barriers without breaching them.
据说,薛定谔构造这个实验是想嘲讽量子物理的新兴理论,但从那以后,物理学家们发现了许多量子世界的叠加态案例。
Schrodinger's is said to have devised the experiment to ridicule the emerging theories of quantum physics; but since then physicists have found many examples of superposition in the quantum world.
物理学家们漫游于量子世界,随心所欲地选择他们喜欢的诠释,这看起来有几分不科学,但至少目前看来也没什么坏处。
The idea that physicists wander round the quantum zoo, choosing a favourite creature on a whim might seem rather unscientific, but it hasn't done us any harm so far.
我非常喜爱“ Quantumespresso(量子咖啡)”这期封面的简洁感,它在最平凡的物件—一杯咖啡中传递了量子世界的神秘。
I love the simplicity of the "quantum espresso" cover: it conveys the weirdness of the quantum world in the most mundane of objects -a cup of coffee.
在未来世界,量子计算机可能会取代当代的电脑,借助于量子世界中的诸多奇性,未来计算机的容量将急剧膨胀,其信息处理的速度也会突飞猛进。
The computers of tomorrow could be quantum not classical, using the quantum world's strange properties to vastly increase memory and speed up information processing.
他来自于麻省理工学院(MassachusettsInstituteofTechnology)。内部相对论试图解释广义相对论如何立足于量子世界。
Developed by Olaf Dreyer of the Massachusetts Institute of Technology, internal relativity sets out to explain how general relativity could arise in a quantum world.
多伊奇先生也剖析了他所处的量子物理学家领域。尼艾尔斯•玻尔等人在20世纪20年代就该奇特难懂的量子世界提出的“哥本哈根解释“目前得到物理学家的普遍接受。
Turning his intellectual searchlight on his own field, Mr Deutsch rails against the Copenhagen interpretation of quantum physics developed by Niels Bohr and others during the 1920s.
半经典闭合轨道理论由于具有物理图像清晰、可近乎解析处理等特点被普遍用来解释原子或离子在强外场中的光吸收现象,成为实现联结经典理论和量子世界的重要桥梁。
Semiclassical closed orbit theory has been extensively used to explain the photo-absorption spectra of atoms in external fields due to its clear physical picture and wide availability.
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.
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.
通过与19世纪的电磁理论相结合,量子力学为我们当前所处的无线信息通信世界提供了一份蓝图。
When combined with the electromagnetic theory of the 19th century, quantum mechanics provides the blueprint for our current wireless world of information and communication.
现在,科学家也许要日益向自然世界中新兴的量子生物学学习众多的例子。
Now scientists may increasingly turn to the natural world for examples from the emerging field of quantum biology.
这本书的目的在于展示被多数人认为很神秘的量子力学世界并同时指出它的无所不在么?
Is the purpose of this book to expose this world of quantum mechanics that people find so mysterious and point out that it's everywhere?
众所周知,量子力学的理论,透露了世界运行之道的根本古怪之处。
Notoriously, the theory of quantum mechanics reveals a fundamental weirdness in the way the world works.
而在量子力学的奇妙世界,亚原子粒子却能同时处于几种状态。
In the bizarre world of quantum mechanics, however, subatomic particles can exist in several states at once.
你能设想下生活于量子力学出现前的世界的情形?
量子力学是一个高度成功的物理理论,它从微观的尺度上描述了我们的世界。
Quantum mechanics is a hugely successful physical theory that describes our world at the micro-scale.
正是量子力学的梗概内容证明了,一直以来我们所知晓的也只是亚原子的世界罢了。
It is the bare bones of quantum mechanics that have proved to be consistent with what is presently known of the subatomic world.
量子的世界无法用通常的逻辑规则来解释。
量子的世界无法用通常的逻辑规则来解释。
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