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 …

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 …

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 …

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 …

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 …

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 …

Optical focusing through scattering media is of great significance yet challenging in lots of
scenarios, including biomedical imaging, optical communication, cybersecurity, three …

Scattered optical field modulations can enable the function of traditional optical
technologies, such as the dynamic holographic display, in a scattering environment …

Face recognition has become ubiquitous for authentication or security purposes. Meanwhile,
there are increasing concerns about the privacy of face images, which are sensitive …

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 …