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- diamagnetic exciton 反磁激子
- Many of the metals and most of the nonmetals are diamagnetic. 许多金属和大部分非金属都是逆磁性的。
- State-filling effects of exciton in quantum dot array are observed. 发现许多正负折射交替一维光子晶体新特性。
- The complex is diamagnetic, it is only slightly soluble in water. 这个综合物是反磁性的,它仅微溶于水。
- New progress of exciton condensation in coupled quantum wells[J]. 引用该论文 闫占彪;郭震宁.
- Ergodicity of the Diamagnetic Kepler Problem (DKP) is discussed. 本章还讨论了反磁Kepler问题的遍历性。
- Then, the bipolaron hit the triplet exciton and converts to two polarons. 然后,双极化子会碰上三重态激子转化成两个极化子。
- The spectrum variation is due to the exciton ionization in electric field. 光谱由红变蓝的根源是激子的电场离化。
- Model potential calculations of diamagnetic spectra of Rydberg sodium atoms[J]. 引用该论文 孟慧艳;史庭云;詹明生.
- The design of EAST diamagnetic measurement system including diamagnetic loop and compensation loop has been given. 摘要介绍了EAST托卡马克逆磁线圈加补偿线圈的逆磁测量。
- Glasses doped with CdSxSe1-x microcrystallies, whose size is smaller than the exciton Bohr radius, were made. 制备了小于激子玻尔半径的CdS_xSe_(1-x)微品玻璃.
- On the other hand, the effect of the material and structure on the diamagnetic loop is detailedly checked during engineering design. 详细地叙述了逆磁线圈工程设计中考虑的材料选择和结构设计对逆磁线圈的影响。
- Specially,an abnormal dispersion phenomena of surface eciton polaritons near the Exciton resonance frequeney is found. Queisser的错误结果,发现在激子共振频率附近表面激子极化激元存在异常色散的现象。
- These results are important for the study of the physical properties of exciton in quantum dot. 这些计算结果对深入理解半导体量子点中激子的物理本质具有一定学术意义。
- Both MLR and NN methods can provide acceptable models for the prediction of the molar diamagnetic susceptibilities. 多元线性方法和人工神经网络方法均能得到比较理想的预测摩尔反磁磁化率的模型。
- The NN model for the molar diamagnetic susceptibilities appears more reliable than the MLR model. 而人工神经网络模型对摩尔反磁磁化率的预测结果比多元线性模型似乎更精确。
- In addition, we found that there are two ultrafast exciton dynamics in Allophycocyanin trimer. 首次发展了蓝光高效双光子荧光化合物。
- Preparation of SnO2Nanometer Crystallites and Study of the Optical Propertier of Their Exciton States[J]. 引用该论文 余保龙;张桂兰;汤国庆;邹炳锁;陈文驹.
- As to the emission at 370nm, it should result from exciton recombination radiation. 而在370nm处的发光峰,根据其发光能量,应该是由于激子复合造成的。
- Because of this large binding energy, the exciton is stable at room temperature even in bulk crystals. 正是由于它高的激子结合能,甚至在室温下在大体积的晶体中激子仍很稳定。
