Ultracold atoms have successfully mimicked a fundamental quantum effect normally found in electronic circuits.

Using ultracold atoms and laser light, researchers recreated the behavior of a Josephson junction—an essential component of ...

A new AI developed at Duke University can uncover simple, readable rules behind extremely complex systems. It studies how ...

Rapid industrialization advancements have grabbed worldwide attention to integrate a very large number of electronic ...

Get ready to dive into AC circuits! ⚡🔌 In this video, we’ll walk through how to calculate current and power in an AC circuit with a resistor. Perfect for understanding electrical concepts in action!

Gemma Scope 2,is a comprehensive open-source suite trained on 110 petabytes of data to map internal reasoning circuits across ...

Rapid advances in the kind of problems that quantum computers can tackle suggest that they are closer than ever to becoming ...

A research team at Duke University has developed a new AI framework that can uncover simple, understandable rules that govern ...

This new AI acts like a digital scientist, turning messy data into simple rules that explain how the world really works.

Imagine wearable health sensors, smart packaging, flexible displays, or disposable IoT controllers all manufactured like ...

From a particle smasher encircling the moon to an “impossible” laser, five scientists reveal the experiments they would run in a world powered purely by imagination ...

John Clarke, Michel Devoret, and John Martinis win the 2025 Nobel Prize in Physics for proving quantum effects in large electric circuits, advancing quantum computing technology. The Nobel Prize in ...