| 1. | Formation and applications of laser - excited surface plasma waves
光致表面等离子体波技术及其应用 |
| 2. | Studies on amplified assay of surface plasmon resonance immunosensing
表面等离子体共振免疫传感的放大检测研究 |
| 3. | Plasma implantation deposition on the surfaces of the non - conductive materials
非导电材料表面等离子体注涂技术 |
| 4. | Locus of reflectivity in complex coordinates during surface plasma resonance
光激发表面等离子体波反射系数在复平面的轨迹 |
| 5. | Research on surface plasmon resonance fiber optic sensor for refractive index sensing
应用于折射率检测的光纤表面等离子体波传感器的研究 |
| 6. | The character of spws is presented in terms of the angle of conventional optics in the paper
首先本文从传统光学的概念出发讨论了表面等离子体波传感器的特性。 |
| 7. | Metal nanoparticles display unique optical applications due to the resonance of surface plasmons
金属纳米颗粒由于其表面等离子体共振性质表现出独特的光学应用。 |
| 8. | As an advanced and high - precision sensor , surface plasma wave sensor ( spws ) can be applied widely
表面等离子体波传感器作为一种新型的、高精度的传感器有着广泛的应用前景。 |
| 9. | The second population is pulled forwards by the propagating energetic electrons . the third energetic ion population emerg
研究了前、后表面等离子体密度标长对高能离子产生的影响。 |
| 10. | Surface plasmon resonance technique ; immunosensor ; amplified assay ; streptavidinbiotinylated antibody complex
表面等离子体共振技术免疫传感器放大检测链霉亲和素-生物素化抗体复合物 |
