Properties that remain unchanged when materials are stretched or bent, which are broadly referred to as topological properties, can contribute to the emergence of unusual physical effects in specific ...

Slow light in photonic crystal waveguides arises from the engineered dispersion of periodic dielectric structures, which can dramatically reduce the group velocity of light near the photonic band edge ...

Discover 100 scientific phenomena so bizarre they'll leave you speechless! From cosmic wonders to quantum quirks, explore ...

Just as nanoplasmonics reveals the fascinating interplay between light and metal nanoparticles, nanophotonics ventures into the broader realm of light manipulation at the nanometer scale. It explores ...

Tsukuba, Japan—Despite remarkable progress in science and technology, rapid advancements have exposed limitations in many technological domains. A pressing challenge in semiconductor devices, which ...

See more of our trusted coverage when you search. Prefer Newsweek on Google to see more of our trusted coverage when you search. In what seemed like a scene straight out of a superhero movie, a ...

The deformation behaviour of metallic alloys encompasses the sequence of elastic loading, yield point transition and subsequent plastic flow under applied stress. Alloys often exhibit a distinct yield ...

Scientists have experimentally confirmed an unusual quantum phenomenon for the motion of luminescent electronic quasiparticles in atomically-thin semiconductors. A highly unusual movement of light ...