If your New Year’s resolution is to understand quantum computing this year, take a cue from a 9-year-old podcaster talking to ...

For over a century, quantum mechanics and Einstein’s general relativity have stood as the cornerstones of modern physics, yet their unification remains one of science’s greatest challenges. Now, ...

Gear-obsessed editors choose every product we review. We may earn commission if you buy from a link. Why Trust Us? Scientists have proposed a new test to hopefully help shed some light on quantum ...

Quantum mechanics is our most successful physical theory. Created to account for atomic phenomena, it has a vast range of applications extending well beyond the atomic realm, from predicting the ...

Quantum mechanics describes the unconventional properties of subatomic particles, like their ability to exist in a superposition of multiple states, as popularized by the Schrödinger's cat analogy, ...

The 2025 Nobel Prize in physics has been awarded to a trio of scientists – a Briton, a Frenchman and an American – for their ground-breaking discoveries in the field of quantum mechanics. John Clarke, ...

Quantum mechanics is one of the most successful theories in science — and makes much of modern life possible. Technologies ranging from computer chips to medical-imaging machines rely on the ...

William Mark Stuckey does not work for, consult, own shares in or receive funding from any company or organization that would benefit from this article, and has disclosed no relevant affiliations ...

At GovWare 2025, Dr Pang Liang Teck, General Manager of Advanced Security Products and Chief Product Officer for ST Engineering’s Cyber business, highlighted the rapid progress in quantum computing ...

Get up to speed on the weird and wonderful world of quantum mechanics in this one-day intensive workshop. Our line-up of six leading quantum experts will explain this famously complex field in easily ...

Physicists have identified a new superfluid phase in a class of quantum systems that, until recently, looked too unstable and lossy to host such delicate order. Instead of destroying quantum coherence ...