Colliding gold nuclei at various energies enables scientists to investigate phases of nuclear matter and their possible co-existence at a critical point.
Warming stimulates methanogenesis fueled by the release of plant metabolites.
Scientists investigate virus-host interactions at sub-freezing temperatures in Arctic peat soil.
Historical precipitation influences soil viruses and their functional potential in grassland soils.
New discovery allows scientists to better stabilize the plasma in future compact fusion reactors.
Soil moisture influences the activity of soil DNA viruses and the composition and abundance of RNA viruses.
A new cultivation technology called a “porous microplate” reveals how photosynthetic microalgae interact with their micro-environment.
Electrode engineering produces unprecedented selectivity, and high rates of carbon dioxide reduction to multicarbon products.
Experiments confirm the NUCLEI collaboration’s predictions of the existence of the tetraneutron.
Theoretical study exploits precision of new heavy ion collision data to predict how gluons are distributed inside protons and neutrons
High-energy proton experiments optimize production of medical imaging isotopes while providing insight into how to protect astronauts from space radiation.
Quantum technique accelerates identification of entangled materials.
