Learn about Harvard's ultra-thin chip, a groundbreaking advance in quantum photonics that could revolutionize quantum ...

This latest triumph builds on previous successes by the Japanese company, which has shown that quartz-free HVPE can grow GaN layers with record room-temperature mobilities. Epilayers also feature very ...

The advantages of silicon carbide ceramics are primarily focused on their adaptability to extreme environments: their thermal conductivity is as high as 120-200W/ (m·K), which is 5-10 times that of ...

Researchers at Forschungszentrum Jülich and the Leibniz Institute for Innovative Microelectronics (IHP) have developed a material that did not exist before: a stable alloy of carbon, silicon, ...

Flip chip lidded ball grid array (FCLBGA) packaging technology, which is commonly used in high-performance computing applications, is faced with significant challenges from a heat dissipation ...

In an advancement for next-generation electronics, researchers from the International Center for Quantum Materials at Peking ...

In a first for the field, researchers from The Grainger College of Engineering at the University of Illinois Urbana-Champaign have reported a photopumped lasing from a buried dielectric ...

To achieve this, the researchers carefully tuned the cooling rate. A fast “thermal quench”—dropping the temperature at around ...

In the push to shrink and enhance technologies that control light, MIT researchers have unveiled a new platform that pushes ...

Researchers at the Jülich Research Center and the Leibniz Institute for Innovative Microelectronics (IHP) have developed a ...

The new method makes large InSe wafers that work better than silicon. This can help build faster, smaller, low-power chips ...

Xanadu Quantum Technologies has launched a project with Mitsubishi Chemical to develop quantum algorithms for extreme ...