Researchers have created a new ultra-broadband electro-optic comb that packs 450 nm of light precision into a chip smaller than a coin, paving the way for smarter, more efficient photonic devices.
Scientists are unlocking the secrets of halide perovskites - a material that's poised to reshape our future by bringing us closer to a new age of energy-efficient optoelectronics.
Researchers developed innovative methods to enhance frequency conversion of terahertz (THz) waves in graphene-based structures, unlocking new potential for faster, more efficient technologies in wireless communication and signal processing.
Experiments have yielded a fascinating new type of matter, neither granular nor crystalline, that responds to some stresses as a fluid would and to others like a solid. The new material could have uses in areas ranging from helmets and other protective gear to biomedical devices and robotics.
Researchers use the knowledge of molecular motors to enhance the nanoscale artificial motor in hopes of leveling out the speed disparity between artificial motors and motor proteins.
