Researchers at the Helmholtz-Zentrum Dresden-Rossendorf (HZDR) have developed a new procedure, enabling them to speed up ...

Looking back at the history of computers, it’s hard to overestimate the rate at which computing power has scaled in the course of just a single human lifetime. But yet, existing classical computers ...

For years, quantum computers have carried a bold promise. They could solve problems so complex that even the world’s best ...

We see countless stars and galaxies sparkling in the universe today, but how much matter is actually there? The question is simple enough — its answer, however, is turning out to be quite a ...

So the thing with car simulations is that they're made on an ordinary classical computer. But for experiments—especially ...

More stable and efficient materials for solar cells are needed in the green transition. So-called halide perovskites are highlighted as a promising alternative to today's silicon materials.

For scientists, supernovae are true superstars — massive explosions of huge, dying stars that shine light on the shape and fate of the universe. For a brief burst of time, supernovae can radiate more ...

We have long taken it for granted that gravity is one of the basic forces of nature—one of the invisible threads that keeps the universe stitched together. But suppose that this is not true. Suppose ...

Using a combination of computer simulations and experimental studies, a team of researchers is uncovering vital clues into how breast cancer cells invade breast tissue. In traditional mouse models ...