For the first time, physicists have developed a model that explains the origins of unusually stable magic nuclei based ...

A novel apparatus at the U.S. Department of Energy's (DOE) Argonne National Laboratory has made extremely precise ...

CERN's ALICE experiment has resolved the puzzle of deuteron formation, showing that most deuterons form via resonance-driven coalescence after collisions cool.

Scientists in the United States have made an extremely precise measurements of unstable ruthenium ...

All of the cells settled down around the pillars, which caused their nuclei to curve. This caused openings to form in the nuclear membrane but not in the exterior cellular structure as witnessed by ...

This expansion marks the first of several major updates planned for the new year. Nuclei remains committed to the RISC-V ecosystem and will continue to roll out new product milestones and partnership ...

Most cells typically have one nucleus that holds its genomic DNA. Muscle fibers, however, are large, individual cells that contain many nuclei. Reporting in Nature Communications, scientists have used ...

How are galaxies born, and what holds them together? Astronomers assume that dark matter plays an essential role. However, as yet it has not been possible to prove directly that dark matter exists. A ...

Isolating nuclei is a crucial step for single nuclear RNA-sequencing and ATAC-sequencing workflows. Making sure that non-clustered, debris-free samples are produced is vital to effective library ...