1.【核】费米子
1.an elementary particle with a half-integral spin that obeys the Pauli exclusion principle. Electrons, protons, and neutrons are types of fermions.
1.Furthemore, the entropies of Bosons and Fermions have similar form. There is only a different coefficient between them.
而且,玻色子和费米子场的熵具有相同的形式,二者相差一个系数。
2.The next goal was to get fermions strongly attracted to one another.
下一个目标是要使费米子彼此强烈吸引。
3.The general rule is that an even number of fermions make up a composite boson, whereas an odd number make up a composite fermion.
一个通则是,偶数个费米子会组成一合成玻色子,而奇数个费米子会组成一合成费米子。
4.Deep mathematical reasons require that quantum particles in three dimensions must be either fermions or bosons.
数学上我们可以证明,三维空间中的粒子只可能是费米子或是玻色子。
5.Consider thermodynamic functions of the system of interacting fermions using the oscillator representation.
利用振荡表象,考虑相互作用费米系统的热力学函数。
6.By mapping bosons onto fermions, and vice versa, supersymmetry opens up a new class of possible relations among particles.
而超对称将玻色子与费米子相互对应在一起,开启了粒子间新一类的可能关系。
7.Fermions are inherently the inpidualists and loners of the quantum particle world: no two fermions ever occupy the same quantum state.
费米子天生就是量子粒子世界的独行侠:不可能有两个费米子处在同一个量子态。
8.PROVERBIAL APPLES AND ORANGES are as different as the types of quantum particles called fermions and bosons.
费米子与玻色子的差异之大,有如橘子与苹果的不同。
9.This theory predicts four generations of ordinary fermions and four generations of peculiar fermions.
理论预言了四代通常费米子和四代异常费米子。
10.In a system, no two Fermions can occupy the same quantum state (position and velocity).
在一系统中,不能有两粒费米子占据相同的量子态(位置与速度)。