How can data be processed at lightning speed, or electricity conducted without loss? To achieve this, scientists and industry alike are turning to quantum materials, governed by the laws of the ...

Quantum computers use qubits, which are based on quantum physics, allowing them to solve complex problems far faster than ...

By integrating hardware Root of Trust and post-quantum cryptography at the silicon level, SEALSQ enables quantum computing developers to create secure-by-design architectures, avoiding the risks and ...

Physicists found why holes move slower than electrons in silicon: not defects, but higher intrinsic mass, supporting CMOS-based quantum, cryogenic, and space devices. The finding shows the difference ...

The results achieved by QED-C members Amphenol RF, Maybell Quantum Industries, Rigetti Computing, and XMA, in collaboration with NIST, demonstrate improvements in size and performance of control and ...

The research recently published in the Nature Microsystems & Nanoengineering journal demonstrates Menlo Micro’s cryogenic MEMS Ideal Switch platform in scalable quantum computin ...

Nonlinear optical dynamics—intensity-dependent response of light upon interaction with materials under high-intensity light sources—are of huge significance in modern photonics, finding applications ...

Scientists are leveraging quantum physics to develop new energy production methods, aiming to address the computing industry's growing energy demands. Researchers at MIT have devised a novel approach ...

A new method of changing electronic states on demand could make electronics 1,000 times faster and more efficient, researchers say. In a new study published 27 June in the journal Nature Physics, ...

In the strange world of quantum physics, even the tiniest tweak can unlock outsized rewards.

Thales’ secure operating system (OS) supports Samsung's security chip, winner of the CES 2026 ‘Best Cybersecurity Innovation’ Award. The chip is the first embedded Secure Element (eSE) to integrate ...