海森堡模型(英语:Heisenberg model)是一个自旋系统的统计力学的模型,常被用来研究磁性系统和强关联电子系统中的相变与临界点的现象。
在本章节最后,我们计算了二粒子海森堡模型在热态下的保真度。
At the end of this chapter, we calculate the quantum fidelity of Heisenberg Model with two particles under thermal state.
海森堡用一系列数学元素来代表被观测到的量,比如原子吸收或发出的辐射,用以替换波尔的无法观测的原子模型运行轨道。
Heisenberg replaced the unobserved orbits of Bohr's atomic model with a series of mathematical entities representing observed quantities, such as the radiation emitted or absorbed by an atom.
波尔的模型会为他赢取1922年诺贝尔奖,但其局限激发了对纯粹量子物理学的探索,做这项研究的一个关键人物就是维尔纳·海森堡。
Bohr's model would win him the 1922 Nobel Prize, but its limitations inspired the search for a purely quantum physics. A key figure in this investigation was Werner Heisenberg.
What we see as a result of Heisenberg is the shift from deterministic models.
我们就得到了海森堡的结果,是从确定性模型转变过来的。
应用推荐