1) bonded atom
束缚原子
1.
A complex optical model potential modified by incorporating the concept of bonded atom, which takes into consideration the overlapping effect of electron clouds between two atoms in a molecule, is firstly employed to calculate the total cross sections for positron scattering from CO, HCl, NH_3, SiH_4 in the incident energy range 30—3000eV by using additivity rule model at Hartree-Fock level.
利用可加性规则,使用Hartree-Fock波函数,采用由束缚原子概念修正过的复光学势(由静电势、极化势及吸收势三部分组成),在30—3000eV内对正电子被CO,HCl,NH3和SiH4散射的总截面进行了计算,且将计算结果与实验结果及其他理论计算结果进行了比较。
2) Photon-atom bound dressed state
光子-原子束缚态
3) Trapped atom-field state
光场-原子束缚态
4) bound exciton
束缚激子
1.
Effects of hydrogenic donor impurity position on the binding energy of a bound exciton in Ⅲ-nitrides quantum dots;
III族氮化物量子点中类氢施主杂质位置对束缚激子结合能的影响
2.
The effects of calcining temperature and Sn dopant content on the properties of photoinduced charges of TiO2 were discussed in details, and the relationships between the structure and bound excitons as well as the characteristics of bound excitons of the as-prepared samples were reveale.
同时揭示了样品结构与表面光生束缚激子的关系及其特性。
3.
This paper calculates the ground state energy and binding energy of abound exciton in GaAs/Ga1-xAlxAs material by using variational method and discussesthe results obtained.
用变分法计算了GaAs/Ga1-xAlxAs材料中束缚激子的基态能和结合能,并对计算结果进行讨论,得出当量子点半径取适当数值时人们有可能在更高温度下观测到量子点中的激子的结论。
5) confinement factor
束缚因子
1.
In the paper the confinement factor for square-power gain-guiding optical fibers is focused on while the optical wave being guided in gain and refraction,the form of the fields is given at first for the new type of optical fiber,then the expressions of confinement factor is obtained from Poynting s theorem,o.
主要探讨了折射率与增益的共同导引下,折射率径向平方律变化的增益引导光纤束缚因子的大小。
6) bound excitons
束缚激子
1.
The variable metric algorithm for ground state energy of ionized-donor-bound excitons in semiconductors;
半导体束缚激子基态能的变尺度法
补充资料:电热原子化原子吸收光谱法
分子式:
CAS号:
性质:又称高温炉原子吸收光谱法。利用低压大电流将石墨管、石墨棒、金属丝或金属舟加热到2000~3000℃,使置于其上的试样蒸发并转化为基态原子。由于其对特征辐射吸收,测量待测元素原子吸收信号,从而求出试样中待测元素的含量。
CAS号:
性质:又称高温炉原子吸收光谱法。利用低压大电流将石墨管、石墨棒、金属丝或金属舟加热到2000~3000℃,使置于其上的试样蒸发并转化为基态原子。由于其对特征辐射吸收,测量待测元素原子吸收信号,从而求出试样中待测元素的含量。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条