A team of international physicists has brought Bayes’ centuries-old probability rule into the quantum world. By applying the ...

Researchers at the University at Buffalo have enhanced a computationally efficient technique referred to as the truncated Wigner approximation (TWA), a type of physics shortcut that simplifies quantum ...

Claims that one quantum computer is better than another rest on terms like quantum advantage or quantum supremacy, ...

So, you’ve probably heard about quantum computers, right? They sound super futuristic, like something out of a ...

Quantum computers generate certified random numbers, enhancing security and advancing quantum mechanics for real-world ...

The "Global Quantum Technology Market 2026-2046" report has been added to ResearchAndMarkets.com's offering.The global quantum technology market represents one of the most dynamic and strategically ...

Quantum defects are tiny imperfections in solid crystal lattices that can trap individual electrons and their "spin" (i.e., the internal angular momentum of particles). These defects are central to ...

Californian John Martinis won a Nobel Prize for physics work he did decades ago. Today, he's on a quest to create the fastest ...

Quantum computing's biggest challenge is no longer proving the concept works – it is figuring out how to make the technology practical at scale. Today's qubit ...

The Nobel Prize in Physics for 2025 honors scaled-up quantum physics—while sidestepping controversies swirling around quantum ...

Three scientists at U.S. universities won the Nobel Prize in physics for advancing quantum technology. Here's why their work matters.

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