1) helicity state
Helicity态
2) helium
He
1.
In order to investigate the effects of helium on the excess point defects and secondary defects processes in low activation Fe-Cr-Mn(W, V) alloys during electron beam and electron-He+ ion dual beam irradiation, the in situ observation was carried out using a high voltage electron microscope connected with an ion accelerator.
采用超高压电镜与离子加速器相连结的复合辐照装置,研究了注He对低活性Fe-Cr-Mn(W,V)合金辐照产生的点缺陷及二次缺陷行为的影响。
3) He
He
1.
Mixing and quenching of Cs(6P_J) states induced by collisions with He atoms and N_2 molecules;
Cs(6P_J)+(He,N_2)碰撞精细结构转移和猝灭
2.
Rb(5 P_J)+(He,N_2) collisional energy transfer;
Rb(5 P_J)+(He、N_2)碰撞能量转移
3.
Mixing and Quenching of Rb 5P_J States Induced by Collisions with He Atoms and N_2 Molecules;
Rb(5P_J)与He,N_2的碰撞精细结构混合和猝灭
4) Proton
He~(++)
5) He-NO
He-NO
1.
Influence of He isotope on the differential cross section for He-NO collision system;
He同位素对He-NO碰撞体系微分截面的影响
6) HeⅡ
HeⅡ
参考词条
~(6,8)He
He II
W-HE
HE-AAC
GDC(He)
He~+靶
He-Ne
He/O_2-PBII
Cs-He
Rb-He
He-Ne激光
He同位素
He原子
固He能力
氦(He)气氛
CID/Ar(He)-MIKES
RH-MFB精炼
补充资料:单线态-单线态能量转移
分子式:
CAS号:
性质:处于电子激发单线态的能量给体,通过激发能的转移使能量受体处于激发单线态的过程。
CAS号:
性质:处于电子激发单线态的能量给体,通过激发能的转移使能量受体处于激发单线态的过程。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。