In a recent Nature Communications article, researchers explored how strong electric fields influence electron behavior in graphene, uncovering nonequilibrium effects typically associated with ...

Scientists successfully visualized the ultrafast dynamics of quasi-particles known as excitons, which are generated in carbon nanotubes upon light excitation. This was achieved with spatial and ...

After decades of intense research, surprises in the realm of semiconductors—materials used in microchips to control ...

Excitons--bound pairs of electrons and holes created by light--are key to the optoelectronic behavior of carbon nanotubes (CNTs). However, because excitons are confined to extremely small regions and ...

In a recent study published in the journal Nature Communications, researchers from Florida State University discussed the generation of plasmon polaritons. These are nanoscale-level linked waves of ...

Nano-optics, by bridging the gap between classical optics and nanotechnology, explores light at dimensions smaller than its wavelength. It leverages phenomena like plasmonics, near-field optics, and ...

Listen to the Podcast Episode Axiom Optics, a leading North American distributor of high-end optical instrumentation, is excited to announce its expanded range of high-quality infrared cameras by top ...

Nonlinear optical processes and their anisotropy are foundational to advanced optics, directly governing the function and efficiency of on-chip photonics and nano-optical devices. With integrated ...

Heat-tunable filter could see scanning and screening technology reduced in price and size. Benchtop setup used for measuring spectral transmission of the ZCG. A new filter for infrared light could see ...