| 1. | We first take up the subject of optic ray propagation through a variety of optical media .
首先研究光束通过各种光学介质的传播问题。 |
| 2. | Photon localization in random optical media
无序光学介质中的光子局域化 |
| 3. | Erasabl optical medium
可探光学介质 |
| 4. | This article studies the measuring technique of optical medium based on spectrum interference theory
本硕士论文对基于光谱干涉理论的光学介质特性测量技术进行了研究。 |
| 5. | Information systems - unrecorded optical media unit for digital information interchange - 356 - mm worm optical disk cartridge parts 1 and 2
信息系统.信息数据互换用未记录的光学介质装置. 356mm只写一次多次阅读型worm盒式光盘第1和第2部分 |
| 6. | The dispersion and absorption are a pair of fundamental properties of optical medium . the use of the dispersive properties is often limited by the absorption
吸收和色散性质是光学介质的一对基本性质,吸收性质往往会限制色散性质的利用。 |
| 7. | As a result of interference of light , the spectrum distribution of light will change in some condition when it pass through some medium , and the change is determined by the parameter of the medium
利用光谱仪测量干涉后的光谱分布,再结合优化算法拟合测量光谱曲线,反演出光学介质的某些未知物理参数。 |
| 8. | Base on the process of building physical model , theoretical derivation , mathematical simulation and experiments , a general optical measuring technique based on interference theory and spectrum measurement is presented
在阅读国内外相关文献的基础上,通过建立物理模型、理论推导、数学模拟、实验验证等一系列步骤,首次提出了一种通用的的光学介质测量方法。 |
| 9. | The theory of diffraction aberrations caused by aero - medium was introduced , a physical model on laser propagation in ordered , random inhomogeneous aero - medium was discussed and analyzed . the far - field energy distributions in two condition were given
介绍了气动光学介质引起的衍射像差理论,分析讨论了一套同时可以用于激光在有序,随机两种非均匀气动介质中传输的理论模型。 |
| 10. | Quantum coherence and interference have led to the observation of many new effects and new techniques in quantum optics and atomic physics . examples include coherent population trapping , electrom agnetically induced transparency , lasing without inversion , and enhancement of the index of refraction without absorption
当应用相干场来驱动光学介质时,可以使得介质的吸收和色散关系发生极大改变,产生许多新的效应,如相干布居捕获、电磁诱导透明、无反转激光、无吸收折射率增强等。 |
