Font Size: a A A
Keyword [index sensing]
Result: 1 - 20 | Page: 1 of 3
1. Research On The Polarization Beam Splitting And A The Application Of Goos-h(?)nchen Eect
2. Optical Properties Of 2D Photonic Crystal Monolayer Based On Surface Plasmon
3. Study On The Controllable Slow And Fast Light In Optical Fiber And Its Application
4. Investigation Of The Resonant Characteristics And Potential Applications For Metamaterial In Terahertz Wave Band
5. The Novel Fiber-based Devices Investigation Based On Super Mode And Quasi-quantum Optics Theory
6. Study Of Optical Materials And Devices Based On Magneto-optical Surface Plasmon Polariton
7. Investigation On Periodic Structure Modification Of The Plastic Optical Fibers And Their Refractive Index Sensing
8. Structure Analysis And Characteristic Study Of Dual-parameter Sensing Model Based On High-performance Photonic Crystal Microcavity
9. Research On Surface Plasmon Resonance Sensor Based On Side-Polished Two Mode Fiber
10. Highly Sensitive Multimode Interference Mechanism For Coreless Side Polished Fibers In Sensing Refractive Index
11. Research On Preparation And Sensing Of Microporous Structure Optical Fiber Devices
12. Research On Sensing Properties Of Twin-Hole Fiber
13. Design Of High Birefringence Photonic Crystal Fiber And Performance Optimization
14. Characteristic Analysis Of Multiband And Broadband Terahertz Electromagnetically Induced Transparency Metamaterials
15. Study On The Fano Transmission Properties Of MDM Surface Plasmonic Waveguide
16. Fabrication Of Microfiber Knot Resonator And Its Application In Refractive Index Sensing
17. Research On Catheter-based PS-OCT System And Polarization Demodulation Methods
18. High-sensitivity Refractive Index Sensing Based On A Metal-Cladding Resonant Cavity And Research Of Spin Hall Effect Of Light
19. Research On All-Metal Metamaterial Absorber And Its Absorption And Sensing Characteristics
20. Research On One-dimensional Photonic Crystal Micro-ring Resonator For Refractive Index Sensing
  <<First  <Prev  Next>  Last>>  Jump to