Researchers have been developing computers that deploy light, or photons, rather than electricity to power storage and calculations.

Rice University researchers studying a class of atom-thin semiconductors known as transition metal dichalcogenides (TMDs) ...

AILA integrates large language models to streamline atomic force microscopy, optimizing high-resolution imaging and surface ...

Revolutionizing displays, micro-LEDs offer superior brightness and durability, yet manufacturing hurdles must be overcome for ...

Today, as part of an announcement from The City of Rio de Janeiro and X, The Moonshot Factory, Taara announced a trailblazing ...

Active energy compression in laser-plasma electron beams at DESY's LUX facility reduces energy spread and jitter, paving the ...

Advanced quantum spectroscopy at RIKEN reveals insights into antiproton properties, potentially challenging CPT invariance ...

A global team of experts from academia and industry has joined forces in a landmark ‘Consensus Statement’ on next-generation photodetectors based on emerging light-responsive materials, which could ...

Innovative optical methods in laser processing are revolutionizing thermoset composite fabrication, ensuring faster, cleaner, ...

Advancements in nonlinear optics using 2D materials are transforming photonic devices, offering enhanced performance and ...

Umeå University physicists collaborated with Chinese researchers to produce a laser manufactured completely from biomaterials, including birch leaves and peanut kernels.

Silicon photonics production relies on advanced alignment techniques, optimizing precision and efficiency to meet the growing ...