| 1. | A new photonic bandgap cover has been designed
设计了一种新型的光子晶体覆层。 |
| 2. | Analysis of photonic bandgap microstrip structure using fdtd method
方法分析光子带隙微带结构 |
| 3. | A pmc structure with a complete photonic bandgap has been designed
设计出了具有完全光子禁带的pmc结构。 |
| 4. | Photonic bandgap properties of photonic crystals with a complicated periodic structure
复周期结构光子晶体的光子能带特性研究 |
| 5. | Modulation of photonic bandgap and localized states by dielectric constant contrast and filling factor in photonic crystals
介电常数对比和填充率对光子晶体中光子禁带和局域态的调节 |
| 6. | Leading into the complex refractive index and making use of the characteristic matrix method , the photonic bandgap of photonic crystal with the variety of the absorb is studied
摘要引入复折射率并利用特征矩阵法,研究了光子晶体的吸收对光子晶体能带的影响。 |
| 7. | The simulation and test have been carried out for a metallic photonic bandgap ( mpbg ) reflector antenna , with an explicit method as well as a genetic algorithm
采用一种快速的计算方法,并结合遗传优化算法,进行了金属光子晶体( mpbg )反射面天线的模拟与实验。 |
| 8. | Periodic dielectric structure . they can create a range of forbidden frequencies called photonic bandgap . photons with energy lying in the gap cannot propagate through the medium
它是介质颗粒周期排列而成的人工材料,能够产生光子带隙,频率落在带隙内的光在晶体里沿任何方向都不能传播。 |
| 9. | We modify the defect by applications of optical tweezers technology . structural defects can dictate the properties of photonic bandgap materials , adding intentional defects within the crystal are needed
在实际的应用中,缺陷的结构决定了光子带隙材料的性质,这就需要人为的制造出具有特殊用途的缺陷。 |
| 10. | In the reflected wave , the reflectivity of forbidden band lowers quickly with the extinction coefficient increment , when the extinction coefficient increases to 0 . 05 , there is already no obvious photonic bandgap
得出:在反射波中,禁带的反射率随消光系数的增加而迅速降低,当消光系数增加到0 . 05时,已经不存在明显的能带。 |
