deuteron
1. "deuteron:The nucleus of a deuterium atom, consisting of a proton and a neutron, regarded as a subatomic particle with unit positive charge."
"氘核:氘原子的原子核,由一个质子和一个中子组成,被视为带单位正电荷的亚原子."
2. deuteron alpha reaction
[电] 氘核α反应
3. deuteron neutorn reacton
[电] 氘核中子反应
4. deuteron bombardment
[电] 氘核撞击
5. pion deuteron scattering
π介子-氚核散射
6. Typically an event like the one shown on page 44 could equally well be the result of deuteron breakup as neutrino absorption.
像52页所展示的典型反应可能来自氘核分裂,也有可能来自微中子吸收。
7. stripped deuteron
剥裂氘核 经受剥裂反应的氘核
8. primary deuteron
原氘核
9. two-phototube deuteron detector
双光电管重氢核探测器
10. The binding energy of the deuteron can be found experimentally
可以实验测定氘的结合能。
11. In fact, the nuclear effect in the deuteron structure function is not negligible.
因此有必要单独对氘核的结构函数进行研究。
12. Penetration of deuteron into coulomb potential barrier of neighboring deuteron under several restriction conditions
在几种约束模式下氘核对氘核的势垒贯穿
13. Because the bind energy of deuteron is very small, the deuteron structure function is often assumed the same as that in the free nucleon.
实际上氘核的核效应也是不容忽视的,已有实验结果证实氘核的结构函数与自由核子的明显不同。
14. bending deuteron beam
折射氘(粒子)束
15. By using the leakage and overlap of the partons inside nucleon model, the deuteron structure functions are calculated.
本文利用核内核子部分子的逸出及共用模型计算了氘核的结构函数。
16. polarised deuteron target
极化了的氚核目标
17. deuteron accelerator
氘加速器
18. SIMULTANEOUS DETERMINATION OF BORON, CARBON AND NITROGEN IN SILICON BY DEUTERON ACTIVATION ANALYSIS
氘子活化分析同时测定硅中硼、碳和氮
19. deuteron capture
氘核俘获
20. deuteron stripping
氘核剥裂
21. The deuteron can fuse with another proton to make a helium 3 nucleus
氘核可以和另一个质子聚合以生成一个氦3核。
22. deuteron beam
氘核束
23. Nuclear Effects on Polarized Structure Function of Deuteron
氘核极化结构函数的核效应
24. deuteron source
氘核源
25. deuteron magnetic resonance
氘核磁共振
26. deuteron energy
氘核能
27. deuteron spectra
氘核谱
28. clusters of deuteron and triton
氘氚结团
29. DETEMINATION OF BINDING ENERGY OF THE DEUTERON
氘结合能的测量
30. deuteron target
氘靶, 氘核靶
31. target deuteron
氚核靶
32. Similarly, electron scattering produces electrons that travel away from the sun, whereas the Cerenkov light from deuteron breakup can point in any direction.
而微中子吸收与电子散射所产生的电子,就有个很宽的能量分布。
33. After some extension, the model can also be used to describe the properties of deuteron and nucleon-nucleon interaction.The model can provide us much more information of QCD and strong interaction.
这个模型可以推广到重子-重子相互作用,通过适当的修改后,在解释散射实验数据和氘核的性质方面也取得了相当的成功。
34. deuteron(nucleus of deuterium, heavy hydrogen)
重氢核, 氚核