The researchers at Harvard University have harnessed sodium-caesium molecules as qubits — basic units of quantum computing ...

But superposition is only part of what makes qubits powerful. They also rely on entanglement, a phenomenon Albert Einstein ...

Quantum computers have the potential to revolutionize technology by solving complex calculations and computations that are ...

Confirmation of this elusive state in quantum systems could lead to more efficient quantum devices.Quantum computers have the potential to ...

QuEra Computing, headquartered in Allston after spinning out of a Harvard lab, has customers already running simulations of ...

Quantum calculations amount to sophisticated estimates. But in 1931, Hans Bethe intuited precisely how a chain of particles ...

Researchers from the University of Trento, the InQubator for Quantum Simulations, and Lawrence Livermore National Laboratory (LLNL) recently published an algorithm for a quantum computer that ...

Detecting high-energy particles is essential for exploring the fundamental structure of matter. Particle accelerators propel ...

Scattering takes place across the universe at large and miniscule scales. Billiard balls clank off each other in bars, the ...

Entanglement -- linking distant particles or groups of particles so that one cannot be described without the other -- is at the core of the quantum revolution changing the face of modern technology.

Protons are far from simple particles — they are swirling cauldrons of quarks, gluons, and quantum entanglement. Scientists ...

By blending digital control with analog simulations, scientists have created a powerful new quantum simulator that pushes ...