A new computational approach developed at the University of Chicago promises to shed light on some of the world's most ...

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

Quantum physics has a reputation for needing exotic hardware, from liquid-helium-cooled qubits to sprawling AI clusters, just to crunch through basic simulations. Now a new “physics shortcut” is ...

Quantum computers can perform complex computations thanks to their ability to represent an enormous number of different states at the same time in a so-called quantum superposition. Representing these ...

Quantum computing and artificial intelligence (AI) can be combined with classical computing methods to design and discover small-molecule candidates that target the cancer-driving KRAS protein, ...

The quantum-AI convergence represents the next fundamental shift in how we process information, solve problems and create ...

Xanadu Quantum Technologies Inc. (“Xanadu”), a leading photonic quantum computing company, today announced that it has developed a novel quantum computational framework to accelerate the discovery of ...

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 ...

Lessons in how quantum computing is transforming decision-making and operational performance with Shivaprasad Sankesha ...

Quantum-resistant tokens use advanced cryptographic methods to protect against the powerful capabilities of quantum computers. Quantum-resistant tokens are a new generation of cryptocurrencies built ...