Changing the Nature of Optics in One Step
Researchers invent a new single-step approach to constructing electromagnetic metamaterials uses tiny self-assembled pillars in composite films.
Researchers invent a new single-step approach to constructing electromagnetic metamaterials uses tiny self-assembled pillars in composite films.
Designed molecules will provide positive impacts in energy production by selectively removing unwanted ions from complex solutions.
A new computational technique greatly simplifies the complex reaction networks common to catalysis and combustion fields.
These enhanced tools will accelerate gene discovery and characterization, vital for new forms of fuel production.
Data from three Arctic measurement sites show how clouds, temperature, and water vapor impact the Arctic surface energy budget, which could enhance future warming and sea ice melt.
Fast imaging of frozen argon pellets enables measurement of fast electrons formed during disruption for first time.
Heating the core of fusion reactors causes them to develop sheared rotation that can improve plasma performance.
Scientists discover new signposts in the quest to determine how matter from the early universe turned into the world we know today.
Electric and magnetic properties of a radioactive atom provide unique insight into the nature of proton and neutron motion.
Scientists determine the precise location and identity of all 23,000 atoms in a nanoparticle.
New state of matter holds promise for ultracompact data storage and processing.
A new model identifies a high degree of fluctuations in the glue-like particles that bind quarks within protons as essential to explaining proton structure.