The exponential growth of information stored in data centers and computational power
required for various data-intensive applications, such as deep learning and AI, call for new …

Recent progress in the development of artificial intelligence technologies, aided by deep
learning algorithms, has led to an unprecedented revolution in neuromorphic circuits …

Absorbers for infrared light are important optical components in key areas like biosensing,
infrared imaging, and (thermal) light emission, with special need for thin and reconfigurable …

Phase‐change materials (PCMs) and phase‐transition materials (PTMs) both show a large
contrast in their respective optical properties upon switching, enabling compact optical …

All-optical signal processing is crucial for high-speed optical fiber communication networks.
However, current methods utilizing nonlinear media have limitations such as complex …

Chalcogenide phase‐change materials (PCMs) are a leading candidate for non‐volatile
memory and neuro‐inspired computing applications. Antimony telluride alloys can be made …

Phase-change materials, also well known as the Chalcogenide alloy, have received
considerable attention during last two decades owing to its widespread applications in the …

The typical functions of the optical fiber are communication and sensing. However, the fiber
functions need to extend to meet the requirements of the development of artificial …

High-reflectivity/color contrast is crucial for phase-change materials (PCMs) in optical-
storage and display applications. However, the relationship between phase-change and …

Multilevel storage in chalcogenide‐based phase‐change materials is one of the desired
characteristics to design neuromorphic and in‐memory computing applications. However …