As described in a new study from Chinese and U.S. scientists, a team successfully embedded the inherent stability of a topological time crystal into a quantum computer, which then showed signs of ...

In an extraordinary leap forward for quantum technology, physicists have successfully transformed a quantum computer into a ...

Advances like these lead me to believe that useful quantum computing is inevitable and increasingly imminent. And that’s good ...

Being a quantum pioneer is turning out to be an expensive experiment. Quantum is still years away from widespread enterprise ...

A tiny quantum “refrigerator” can ensure that a quantum computer’s calculations start off error-free – without requiring oversight or even new hardware ...

Researchers are exploring multi-level atomic interactions to enhance quantum entanglement. Using metastable states in strontium, they demonstrate how photon exchange can sustain correlations, offering ...

Jan. 8, 2025 — A research team has achieved a groundbreaking quantum simulation of the non-Hermitian skin effect in two dimensions using ultracold fermions, marking a significant advance in ...

Interactions between atoms and light rule the behavior of our physical world, but at the same time, can be extremely complex.

For the first time, scientists have measured the shape of an electron in solids, opening the door to advances in quantum materials.

The technology could transform computing ... form of quantum information, the qubit. Currently, the most efficient way to create photon pairs requires sending lightwaves through a crystal large ...

By experimentally making a quantum computer behave like a robust form of time crystal, a team of physicists from China and the US hope to make the technology less prone to errors as it scales.

In one such phenomenon, called quantum entanglement ... way to create photon pairs requires sending lightwaves through a crystal large enough to see without a microscope. In a paper published ...