非相干三维成像
非相干数字全息技术是一种融合编码孔径调制和数字全息技术的非相干光成像新方法。该方法通过编码孔径对非相干光场进行调制,结合全息干涉数值重建算法,实现非相干光源下的三维层析成像。与传统数字全息技术相比,编码孔径非相干数字全息技术不仅摆脱了对相干光源的依赖,还具有系统结构简单、成像分辨率提升、抗环境干扰能力强等优势,为非相干信号的非扫描三维成像提供了全新的解决方案,已在荧光超分辨显微成像、拉曼光谱显微成像、微器件三维表征、三维层析成像以及远场超分辨成像等多个领域得到应用显现出极其重要的科学意义和广泛的应用前景。
代表性论文
- Deep learning-based edge enhancement of interferenceless coded aperture correlation holography without point spread hologram,Optics Express(2025)
- Artifact-free phase reconstruction for differential interference contrast microscopy based on deep learning,Optics Express(2025)
- Unsupervised cross talk suppression for self-interference digital holography,Optics Letters(2025)
- Dynamic 3D Fresnel incoherent correlation holography imaging based on single-shot mirrored phase-shifting technology,Optics Letters(2024)
- Accelerating quad Airy beams-based point response for interferenceless coded aperture correlation holography,Optics Letters(2024)
- Out-of-focus artifact removal for Fresnel incoherent correlation holography by deep learning,Optics and Lasers in Engineering(2024)
- Single shot interferenceless coded aperture correlation holography via a learnable Wiener deconvolution network,Optics and Lasers in Engineering(2024)
- Fresnel incoherent compressive holography toward 3D videography via dual-channel simultaneous phase-shifting interferometry,Optics Express(2024)
- Unsupervised Deep Learning Enables 3D Imaging for Single‐Shot Incoherent Holography,Laser & Photonics Review(2024)
- Optical 3D information encryption and rapid decryption via interferenceless coded aperture correlation holography,Optics & Laser Technology(2024)
- Single-shot deep-learning based 3D imaging of Fresnel incoherent correlation holography,Optics and Lasers in Engineering(2024)