Quantum computers need special materials called topological superconductors—but they’ve been notoriously difficult to create. Researchers have now shown they can trigger this exotic state by subtly ...

A new room-temperature quantum device developed at Stanford uses twisted light and advanced materials to link photons and ...

Spintronics—a technology that harnesses the electron's magnetic quantum states to carry information—could pave the way for a new generation of ultra-energy-efficient electronics. Yet a major challenge ...

Researchers have potentially discovered a way to make computers process data about 1,000 times ...

NbRe may be a long-sought triplet superconductor, offering zero-resistance spin transport and major advances in quantum computing.

Auburn scientists have designed new materials that manipulate free electrons to unlock groundbreaking applications. These “Surface Immobilized Electrides” could power future quantum computers or ...

An image of a superconducting quantum computer shows several round, flat, golden layers with tubes and wires between them, all encased in a transparent cylinder. The superconducting quantum computer ...

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

It is expected to produce commercially ready solutions to benefit sectors such as finance and logistics. Read more at straitstimes.com. Read more at straitstimes.com.

At temperatures approaching absolute zero, most magnetic materials settle into tidy patterns. Their tiny magnetic moments, or ...

Overview: Quantum computing has generated massive excitement for its potential to solve complex problems beyond the reach of classical computers.However, techni ...