摘要
Na2KSb photocathodes utilized in image intensifiers typically comprise flat films with a thickness of 0.15 µm, to balance optical absorption depth and minority-carrier (electron) diffusion length. However, these configurations often exhibit insufficient light absorption across visible and near-infrared wavelengths, resulting in low quantum efficiency. To address this challenge, we developed a nanopillar-arrayed Na2KSb photocathode integrated with a bilayer TiO2 two-dimensional nanograting. This design preserved the standard thickness while achieving a 30.1% enhancement in optical absorption through guided-mode resonance and transmission diffraction. Consequently, the measured quantum efficiency increased by 3.75% at 0.68 µm. Our study provides insights for improving absorption efficiency in nanopillar-arrayed Na2KSb photocathodes, thereby enhancing the performance of image intensifiers.
| 源语言 | 英语 | 
|---|---|
| 页(从-至) | 36025-36036 | 
| 页数 | 12 | 
| 期刊 | Optics Express | 
| 卷 | 33 | 
| 期 | 17 | 
| DOI | |
| 出版状态 | 已出版 - 25 8月 2025 |