For quantum computers to outperform their classical counterparts, they need more quantum bits, or qubits. State-of-the-art ...

Neutral-atom arrays utilize atoms trapped in place by tightly focused laser beams known as optical tweezers in 1D, 2D, or 3D ...

Quantum entanglement happens when two particles become interconnected and share a single state. Scientists have measured how ...

Researchers at The Grainger College of Engineering are using atom-photon entanglement to work towards the future of quantum ...

A view inside the trapped-ion quantum computer that carried out a first-of-its-kind simulation of molecular chemistry. A single atom has performed the first full quantum simulations of how certain ...

Now, two unrelated-but-similar experiments confirm that, in a double-slit experiment, detection of a photon’s path (its ...

A new technical paper titled “Leveraging Qubit Loss Detection in Fault-Tolerant Quantum Algorithms” was published by ...

Moscow State University (MSU) has partnered with Rosatom State Nuclear Energy Corporation for the deployment of a 72-qubit ...

A single atom as a movable slit: Researchers realize Einstein's thought experiment in original form, observing ...

Ultracold atoms sit at the heart of the quantum-technology revolution. India has built a strong and steadily growing presence ...

In the previous article titled “The Basics: How Quantum Computers Work and Where the Technology is Heading,” we provided an overview of foundational quantum computing concepts, including qubits ...

Rydberg atom quantum electrometry exploits the unique properties of atoms excited to very high principal quantum numbers. These so‐called Rydberg atoms exhibit exaggerated atomic responses – ...