A new computational approach developed at the University of Chicago promises to shed light on some of the world's most puzzling materials—from high-temperature superconductors to solar cell ...

What happens when the growth of computing demand becomes so rapid that even the best systems become unable to match it? This ...

Over the past decade, colloidal quantum dots (QDs) have emerged as promising materials for next-generation displays due to ...

Quantum chemistry is quietly entering a new phase, one where some of the hardest problems in materials science are finally ...

Researchers have developed a new protocol for characterizing quantum gate errors, paving the way toward more reliable quantum simulations and fault-tolerant quantum computing. Researchers have ...

This diagram illustrates how the team reduces quantum circuit complexity in machine learning using three encoding methods—variational, genetic, and matrix product state algorithms. All methods ...

Researchers develop universal, nondestructive photolithography method for quantum dot patterning for high-resolution ...

Scientists have used a new method to determine the characteristics of optical, i.e. light-based, quantum states. For the first time, they are using certain photon detectors -- devices that can detect ...

Scientists have developed a simulation that can predict how tens of thousands of electrons move in materials in real time, or natural time rather than compute time. Developed by a team from the ...

One of the top companies in this realm is IonQ (NYSE: IONQ). IonQ is taking a different approach to quantum computing than ...