Two experiments with different quantum computers showcase their growing ability to simulate materials and quantum matter that ...

The rapid development of quantum computing faces challenges such as the difficulty and high cost of acquiring physical ...

The difference between traditional computers and quantum computers is narrowing in their ability to simulate the scrambling of quantum information. A team of four researchers at RIKEN has successfully ...

International Business Machines Corporation IBM continues to push the boundaries of quantum technology to explore solutions ...

Physicists have achieved a breakthrough by using a 58-qubit quantum computer to create and observe a long-theorized but never ...

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 ...

From superconducting processors to cryogenic infrastructure, Finnish researchers and companies are among the leaders in the ...

Density functional theory is limited by a mystery at its heart: the universal exchange-correlation functional. U-M researchers are trying to uncover ...

Several companies are working to apply quantum computers to AI, making them attractive stock investments. Three that could reap the greatest benefit from this are IBM (NYSE: IBM), Nvidia (NASDAQ: NVDA ...

In the rapid development of quantum computing and sensor technology, accurately simulating the behavior of atomic-level materials is particularly important. However, traditional simulation methods ...

A single atom has performed the first full quantum simulations of how certain molecules react to light. The researchers who carried out the feat say that their minimalistic approach could dramatically ...

Richard Feynman, the iconic physicist and one of the progenitors of quantum computing, famously said in 1981: “Nature isn’t classical, dammit, and if you want to make a simulation of nature, you’d ...