fermion

fermion

1. THE QUASI BOUND STATES OF DIRAC FERMION IN SCHWARZSCHILD METRIC

Schwarzschild黑洞的Dirac粒子准束缚态

2. THE STARK EFFECT FOR THE BOUND STATES OF A CHARGED FERMION AND A DIRAC DYON WITH ZZ_d(?)137

ZZ_d《137的荷电费米子-狄拉克双子束缚态的斯塔克效应

3. Classical capacity of general quantum channel for single mode fermion system

一般费米量子信道的经典容量

4. The effect from fermion fields is also discussed.

也讨论了费米子场的效应。

5. The Qualitative Behaviors in Dynamics of the Charged Spin-1/2 Fermion in a Fixed Dirac Dyon Field

关于自旋1/2的电荷电费米子在固定的Dirac双子外势中的动力学行为

6. Classical capacity of quantum channel for single mode fermion system

单模费米系统量子信道的经典容量

7. Fermion condensate and Dirac operator determinant with external gauge fields and dynamical fermion self energy

含外规范场和动力学费米子自能的狄拉克算符及费米子凝聚

8. Fermion Propagator with Momentum Dependent Fermion Self Energy

含有动量相关的费米子自能的费米子传播子

9. Just as an ordinary mirror cannot make an apple look like an orange, no ordinary symmetry in physics can transform a fermion into a boson, or vice versa.

就好像一般的镜子不可能让苹果看起来像橘子，一般的物理对称也无法让费米子变成玻色子。

10. The mass calculation by the Fermion Dynamical Symmetry Model (FDSM) predicts a super heavy island of elements located at around Z=l 14 and N=164.

摘要本文根据费米子动力对称模型（FDSM）所预言的原子核质量指出，人们长期以来期盼找到的超重元素岛应出现在Z=114和N=164附近。

11. Study on Statistic Means of Boson and Fermion System

玻色、费米粒子统计方法的研究

12. Mass is really a coupling between a left handed fermion and a right handed fermion.

电子与电子中微子，以及在第二、三代中相对应的粒子，被统称为轻子。

13. The scientists, the scientific community present in nature only to find two types of atomic structures, they are fermion (fermions) with the wave Boson (bosons).

科学家们介绍，目前科学界在大自然中仅仅找到两种类型的原子结构，它们分别是费米子（fermions）与波色子（bosons）。

14. It is shown that when the direct coupling between fermion and Higgs field approaches zero, but the Dirac mass is kept finite, then the necessary condition of the fermion-monopole bound state is not satisfied.

结果表明,当费密子与Higgs场之间的直接耦合趋于零,但狄拉克质量保持固定时,费密子-磁单极束缚态的必要条件必不被满足。

15. A Discussion on the Symmetry of Antimatter for Lnternal Numbering Fermion and "External Numbering"Boson

编内费米子反物质和"编外"玻色子反物质对称性的讨论

16. Fermion field

费密场 费密子场

17. Fermion by the odd sub-atomic structure of the composition, including the proton and the neutron;

费米子是由奇数个亚原子结构构成，包括质子与中子；

18. fermion self energy

费米子自能

19. Fermion gas

费米气

20. Application of Fermion Coherent State to Anderson-Impurity Model

费米相干态方法在杂质安德逊模型中的应用

21. Fermion matrix

费米矩阵

22. For many years, the Lattice QCD’s researchers were working hard try to solve the difficulties in the theory, e.g. the doubling of fermion and the breaking of chiral symmetry.

近年来，格点QCD研究人员一直致力于解决格点QCD存在的困难：费米子加倍效应与手征对称性破缺。

23. Those symmetries may act like the distorting mirrors of a funhouse, making familiar electrons look like ghostly neutrinos, for instance, but they can never change a fermion into a boson.

那些对称的作用也许就像游乐场里的哈哈镜，能让熟悉的电子看起来像鬼魅似的微中子，但它们却无法让费米子变成玻色子。

24. heavy fermion

重费密子

25. Ginsparg was accomplished enough as a physicist to have a subatomic particle, the Ginsparg-Wilson fermion, named after him and his thesis adviser, 1982 Nobelist Kenneth G.

金斯帕的成就，让他成为一个拥有次原子粒子的物理学家；

26. ZERO ENERGY FERMION IN TOPOLOGICAL NONTRIVIAL SPHERICAL SYMMETRICAL FIELD ON MINKOWSKI SPACE

闵空间拓扑非平庸球对称场中零能费米子