Ferrimagnets are a special type of magnet where different atoms' magnetic moments partially cancel each other out, creating a rich internal structure. They are widely used in technologies from magneto ...

Time-varying systems, materials with properties that change over time, have opened new possibilities for the experimental manipulation of waves. Contrarily to static systems, which exhibit the same ...

Using one of the world’s most advanced spectroscopy systems, researchers have developed a framework to guide studies in next-generation quantum information technologies. For the first time, scientists ...

Quantum computing engineers in Sydney have demonstrated a clean way to entangle nuclear spins inside silicon chips.

More than 30 companies have disclosed performance forecasts for the first three quarters of 2025. A new method for preparing photoresist has been successfully developed. According to China Chemical ...

A rare spin effect once limited to large crystals is now seen in ultrathin magnetic films, pointing to new ways of building faster, more stable, and miniaturized spin-based devices.

Using one of the most advanced spectroscopy setups worldwide, researchers have created a recipe for research into next-gen quantum information technologies "In the general field of electronics, one ...

Researchers at UNSW have found a way to make atomic nuclei communicate through electrons, allowing them to achieve entanglement at scales used in today’s computer chips. This breakthrough brings ...

MIT engineers built a magnetic transistor from chromium sulfur bromide, promising smaller, faster electronics with built-in memory.