Explore the potential of spintronics, its impact on power consumption, and the challenges faced in achieving efficient spin injection and detection.
An introduction to the concept of charge carrier generation, a fundamental process in semiconductor physics, including the physical mechanisms behind it and examples of how it is used in modern electronics.
In the race for bandwidth, optical amplifiers are the secret weapons. 🚀 Discover how new amplifier will unlock a world of data transmission possibilities!
Discover how 3D-IC technology can dramatically change detectors for particle tracking
Optical computing has gained renewed interest due to its potential speed and energy-efficiency advantages over electronics. While the speed of light is often cited, it's not the key differentiator. Instead, optical computing benefits from 11 features, such as parallelism and low crosstalk, enabling careful design to outperform electronics.
Silicon pixel sensors revolutionized particle detection with microscopic tracking precision. Clever monolithic fabrication techniques integrated sensors and complex circuitry, enabling huge physics discoveries.
How the minority carrier lifetime works and is affected by bulk and surface recombination.
Exploring the evolution of transistor technology, a pivotal shift from traditional lithography to advanced FinFET and Nanosheet technologies is underway.
See how Silicon Photonics will save the communication world from the Moore's Law curse
Navigating the CMOS technology scaling race: Explore how the relentless pursuit of smaller transistors is reshaping modern microelectronics.