Atomic nuclei exhibit multiple energy scales simultaneously—ranging from hundreds down to fractions of a megaelectronvolt. A new study demonstrates that these drastically different scales can be ...

For almost a century, measurements have indicated that a significant proportion of matter in the universe consists of unknown ...

When world-leading teams join forces, new findings are bound to be made. This is what happened when quantum physicists from ...

Physicists searching for “dark forces” unexpectedly discovered deformed atomic nuclei. When top research teams collaborate, ...

The results confirmed the original anomaly, but thanks to new nuclear theory calculations from researchers at TU Darmstadt, ...

Where would carbon-based life be without carbon? There are 118 known chemical elements, but carbon is the fourth most ...

Jumbo phages utilize a complex protein import system, with Imp1 as a key gatekeeper, to transport proteins into their ...

The international team also used the data to get direct information about the deformation of the atomic nucleus in ytterbium ...

Oxytocin receptor (Oxtr) signaling influences complex social behaviors in diverse species, including social monogamy in prairie voles. How Oxtr regulates specific components of social attachment ...

Superconducting circuits have been used at TU Wien (Vienna) to create "artificial atoms" which can store light - and thus ...

Torsional stress in chromatin plays a fundamental role in cellular functions, influencing key processes such as transcription, replication, and chromatin organization. Transcription and other ...

A new method finally reveals the full quantum identity of electrons, offering insights that could transform material science ...