A team at Roswell Park Comprehensive Cancer Center has identified a novel metabolic pathway that plays a key role in enabling ...
OpenDDE is a preview release. CLI flags, input/output JSON fields, and released checkpoints may change between versions, and predictions are not guaranteed to be reproducible across releases. It is ...
Cell death in dementia has long posed a frustrating problem. Toxic proteins pile up inside neurons in Alzheimer’s disease and ...
The world's first nuclear clocks have ticked. A team of physicists has demonstrated a working timekeeping device regulated not by orbiting electrons — as in conventional atomic clocks — but by ...
It’s a knockout Illustration of how close pairing was studied. A high-energy electron (purple) scatters from a nucleus by emitting a virtual photon (purple). The photon goes on to knock out a proton ...
A special set of numbers has formed the backbone of nuclear physics research for decades, and now we finally know how it arises from the quantum mix of nuclear particles and forces. Nearly 80 years ...
For the first time, physicists have developed a model that explains the origins of unusually stable magic nuclei based directly on the interactions between their protons and neutrons. Published in ...
The nucleus accumbens shell (NAc-S) and its projections to the ventral pallidum (VP) are thought to be critical for stimulus-based decisions. The NAc-S is predominantly composed of spiny projection ...
Researchers at CERN have made a great step forward in revealing how atomic nuclei behave after they mapped the edge of a mysterious ‘island of inversion’ where the standard rules of nuclear physics do ...
Mirror magic: The "cores" of the exotic nuclei oxygen-22 and silicon-22 both resemble that of oxygen-16, with eight protons and eight neutrons. The neutron-rich oxygen isotope contains an additional ...