It has never been straightforward to probe the secrets of quantum systems. Quantum systems are powerful but extremely hard to measure.

UChicago researchers, partners create molecules that communicate on the same frequencies as phone and internet services

The neutral-atom platform appears promising for scaling up quantum computers. To solve some of the toughest challenges in physics, chemistry, and other fields, quantum computers will eventually need extremely large numbers of qubits.

IonQ will integrate Vector Atomic's advanced sensing technologies, including atomic clocks, inertial sensors and synchronization systems.

Imagine zooming into matter at the quantum scale, where tiny particles can interact in more than a trillion configurations at once.

Just as GPUs transformed AI by moving from games to general-purpose computing, quantum systems may one day power breakthroughs in how machines hear and interpret the world.

Quantum computing is becoming a reality and companies like QuantumAI are at the forefront, harnessing quantum-assisted AI.

An international team has confirmed that large quantum systems really do obey quantum mechanics. Using Bell’s test across 73 qubits, they proved the presence of genuine quantum correlations that can’t be explained classically.