我们观察量子水平下粒子的能力目前受到海森堡不确定原理的限制。
Our ability to observe particles at the quantum level is currently limited by Heisenberg's uncertainty principle.
根据一篇刊登在自然物理上的文章报道,量子存储器将会成为所有企图击溃海森堡不确定原理的科学家的必备品。
A quantum memory may be all scientists need to beat the limit of Heisenberg's uncertainty principle, according to a paper published in Nature Physics.
用量子力学的术语来说,这可以归犯罪于海森堡不确定原理,这个理论认为如果我们所知道的粒子的速率愈为精确,那么对于它所处的位置就只能知道得愈不精确,反之亦然。
In quantum terms, you can blame Heisenberg's uncertainty principle, which says the more precisely we know a particle's speed, the less we know about its position, and vice versa.
海森堡告诉我们不确定性原理,我们之后会看这个。
Heisenberg gave us the uncertainty principle, which we will visit later.
西班牙的一组物理学家目前对如何做到克服海森堡不确定性原理造成的限制而进行量子测量这一点进行了演示。
A group of physicists in Spain has shown how to make a quantum measurement that overcomes a limit related to Werner Heisenberg's uncertainty principle.
这是波尔和海森堡,我们将讨论海森堡的不确定性原理。
Here's Bohr with Heisenberg, and we'll talk about Heisenberg's uncertainty principle.
量子存储器可能颠覆海森堡的不确定性原理。
Quantum memory may topple Heisenberg's uncertainty principle.
量子存储器可能颠覆海森堡的不确定性原理。
Quantum memory may topple Heisenberg's uncertainty principle.
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