Wavefront shaping: a versatile tool to conquer multiple scattering in multidisciplinary fields
Optical techniques offer a wide variety of applications as light-matter interactions provide
extremely sensitive mechanisms to probe or treat target media. Most of these …
extremely sensitive mechanisms to probe or treat target media. Most of these …
Artificial intelligence in classical and quantum photonics
The last decades saw a huge rise of artificial intelligence (AI) as a powerful tool to boost
industrial and scientific research in a broad range of fields. AI and photonics are developing …
industrial and scientific research in a broad range of fields. AI and photonics are developing …
Anti-scattering light focusing by fast wavefront shaping based on multi-pixel encoded digital-micromirror device
Speed and enhancement are the two most important metrics for anti-scattering light focusing
by wavefront shaping (WS), which requires a spatial light modulator with a large number of …
by wavefront shaping (WS), which requires a spatial light modulator with a large number of …
[HTML][HTML] Optimal efficiency of focusing diffused light through scattering media with iterative wavefront shaping
Iterative wavefront shaping is a powerful tool to overcome optical scattering and enable the
focusing of diffusive light, which has exciting potential in many applications that desire …
focusing of diffusive light, which has exciting potential in many applications that desire …
Enhance the delivery of light energy ultra-deep into turbid medium by controlling multiple scattering photons to travel in open channels
Multiple light scattering is considered as the major limitation for deep imaging and focusing
in turbid media. In this paper, we present an innovative method to overcome this limitation …
in turbid media. In this paper, we present an innovative method to overcome this limitation …
Adaptive optical focusing through perturbed scattering media with a dynamic mutation algorithm
Optical imaging through or inside scattering media, such as multimode fiber and biological
tissues, has a significant impact in biomedicine yet is considered challenging due to the …
tissues, has a significant impact in biomedicine yet is considered challenging due to the …
Towards smart optical focusing: deep learning-empowered dynamic wavefront shaping through nonstationary scattering media
Optical focusing through scattering media is of great significance yet challenging in lots of
scenarios, including biomedical imaging, optical communication, cybersecurity, three …
scenarios, including biomedical imaging, optical communication, cybersecurity, three …
Spatial Full Degree‐Of‐Freedom Scattered Optical Field Modulation
Scattered optical field modulations can enable the function of traditional optical
technologies, such as the dynamic holographic display, in a scattering environment …
technologies, such as the dynamic holographic display, in a scattering environment …
Speckle‐based optical cryptosystem and its application for human face recognition via deep learning
Face recognition has become ubiquitous for authentication or security purposes. Meanwhile,
there are increasing concerns about the privacy of face images, which are sensitive …
there are increasing concerns about the privacy of face images, which are sensitive …
Focusing through disturbed multimode optical fiber based on self-adaptive genetic algorithm
H Yu, Z Yao, X Sui, G Gu, Q Chen - Optik, 2022 - Elsevier
In terms of the imaging resolution and miniaturization, multimode fiber outperforms single-
mode fiber bundles. However, fiber disturbance has always been a challenge to multimode …
mode fiber bundles. However, fiber disturbance has always been a challenge to multimode …