The phenomenon where electron spins align in a specific direction after passing through chiral materials is a cornerstone for ...

Quantum engineers have now demonstrated a fully controllable three‑qubit register on a silicon photonic chip, turning a ...

Abstract The interaction between electron spin and molecular chirality plays a fundamental role in quantum phenomena with significant implications for ...

One intriguing method that could be used to form the qubits needed for quantum computers involves electrons hovering above ...

The physics department at UC Santa Barbara houses its own powerful particle accelerator that accelerates electrons to 99.4% of the speed of light: The Sherwin Group’s ability to produce short and ...

Researchers at Kumamoto University, in collaboration with colleagues in South Korea and Taiwan, have discovered that a unique ...

This schematic illustrates how regulating electron spin states through six key strategies—including defect engineering, valence modulation, and magnetic field application—can optimize catalytic ...

One of the most intriguing ideas for qubits is electrons that float above the surface of liquid helium at a temperature of ...

A UB-led experiment confirms that ferromagent iron found a way to sync with the superconducting metal vanadium.

Diamonds with certain optically active defects can be used as highly sensitive sensors or qubits for quantum computers, where the quantum information is stored in the electron spin state of these ...