Today the most popular approach to quantum gravity is string theory, which researchers hope could describe happenings in the universe at the most fundamental level.
目前研究量子引力最常用的方法是超弦理论,研究人员希望它能描述宇宙在最基本层面上的活动。
A new study says string theory can be tested by observing the behavior of entangled quantum particles.
一项最新研究认为,弦论能够通过观察纠缠态的量子粒子的行为表现进行检验。
Other theories of quantum gravity, including string theory and loop quantum gravity, are far more difficult for newcomers to embrace.
量子引力的其它理论,包括弦论和圈量子引力,对新人来说都更难以涉足其中。
In a nutshell, string theory attempts to reconcile a mathematical conflict between two already accepted ideas in physics: quantum mechanics and the theory of relativity.
简单说,弦理论力求解决物理学中已认可的两个理论间的矛盾:量子力学和广义相对论。
String theory elegantly reconciles the otherwise competing rules of quantum mechanics and general relativity.
弦论非常优美地使量子力学与广义相对论中相互矛盾的理论一致起来。
String theory, one route to quantum gravity, gives an unsatisfactorily vague answer: space can have anything from zero to 10 dimensions.
弦理论,它作为一条通向量子引力的道路,对上述的这个问题,只是提供了一个含糊不清的答案,不能使人满意:空间,既然可以从零维到10维。
String theory smooths out the mathematical inconsistencies that currently exist between quantum mechanics and the theory of relativity.
弦理论缓和了量子力学和相对论之间的数学矛盾。
A new study says string theory can be tested by observing the behavior of entangled quantum particles. Wikipedia.
一项最新研究认为,弦论能够通过观察纠缠态的量子粒子的行为表现进行检验。
Using string theory math, Duff predicted the pattern that would occur when four quantum bits are entangled with each other.
使用弦论数学,达夫预测了当四个量子位元相互纠缠时将会发生的模式。
The superstring theory can explain the mysterious quantum laws of sub-atomic physics by postulating that sub-atomic particles are really just resonances or vibrations of a tiny string.
在超弦理论可以解释通过假定亚原子粒子的共振或其实只是一个微小的弦振动的亚原子物理学的神秘量子法则。
Yeah, well, it's just some quantum mechanics with a little string theory doodling around the edges.
不错,只是一些量子力学而已边上还随便写了一点点弦理论。
In the recent year, more and more physical problems on the noncommutative background are regarded as important for people with the study of the quantum Hull Effect and the string theory.
近几年,随着对量子霍尔效应和弦理论的研究,越来越多的非对易背景上的物理学问题引起人们的重视。
There is no obvious reason why the insanely complex mathematics underlying string theory can also be used to predict the behavior of entangled quantum systems.
为什么隐藏在弦论下面的异常复杂的数学,也能够被用于去预测纠缠态量子系统的行为表现?目前还没有明确的理由。
Steinhardt's scenario makes use of string theory, another attempt to reconcile General Relativity with quantum physics.
斯顿哈德的假设引用了弦理论,这种理论也试图在相对论和量子物理学之间找到折衷点。
It turns out that string theory predicts the behavior of entangled quantum particles, which can be tested in a lab - therefore testing string theory.
结果是弦论能够预测纠缠态的量子粒子的行为表现,而这种行为表现可以在实验室中进行检验——因此最终可以对弦论进行检验。
General Relativity; Quantum Gravity; String Theory and M-Theory.
广义相对论;量子引力;弦论和M -理论。
General Relativity; Quantum Gravity; String Theory and M-Theory.
广义相对论;量子引力;弦论和M -理论。
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