Researchers discover key details of how to drive photosynthesis in the shade by studying far-red light acclimation in cyanobacteria.
Using two methods is better than one when it comes to observing how solar cells form and improving cell properties.
Photon-deuteron collisions offer insight into the gluons that bind the building blocks of matter—and what it takes to break protons and neutrons apart.
Understanding platinum degradation could reduce waste and lower cost of a promising green technology, hydrogen fuel cells.
Using an ensemble of artificial intelligence (AI) agents enabled faster, more accurate data analysis of synchrotron x-ray data.
Monitoring photo-excited electrons in real time with nanometer sensitivity reveals strengths and weaknesses in a common light-harvesting material.
A new model predicts small-scale differences in methane emissions from tropical soils on a hillside during drought and recovery.
The search for “broken symmetry” may offer new insight into nuclear structure.
Scientists studied antimatter in the proton with higher precision than ever before, revealing insights into the particle’s puzzling dynamics.
Scientists find strong evidence for the long-predicted Breit-Wheeler effect—generating matter and antimatter from collisions of real photons.
The tropical Madden-Julian Oscillation (MJO) rainfall pattern brings change to non-tropical parts of the United States.
Scientists measure radioactive molecules at the extremes of physics.
