Building on more than five years of research developing a unique ultrafast microscope that can ... frame of a movie as the different laser pulses are varied in time. The movie also has “color,” albeit ...

A project at the University of Tokyo has now applied a photothermal optical spectroscopy technique to the task, investigating whether it could detect evidence of living microbes while satisfying these ...

Recent advances in the field of materials science have opened new possibilities for the fabrication of bioelectronics, devices designed to be worn or implanted in the human body. Bioelectronics can ...

The 3D food printer, developed by researchers from Hong Kong, builds and cooks food simultaneously while consuming just 14 ...

Researchers at the Hong Kong University of Science and Technology (HKUST) have developed a 3D printer that uses graphene and ...

Where to start? Failure analysis is a systematic process that uses electrical characterization, physical analysis, and ...

So far, most green laser light is produced using infrared laser diodes in combination ... of the active layer was verified by using a microscope to image its photoluminescence.

Ti:Sapphire (Ti:Sa) was initially proposed and demonstrated as a near-infrared gain medium in 1982, and was commercialized by Spectra-Physics in 1988 with the launch of a continuous-wave laser.

Merging some esoteric physics principles with an advanced instrument creates a magnetic microscope with resolution better ...

A new "self-driving" microscope developed by UT Southwestern Medical Center researchers solves two fundamental challenges ...

AMADA WELD TECH has introduced the MM-L400A laser weld monitor. It can detect infrared, reflected, and visible light, ...

A multi-institutional team of physicists and engineers has developed a laser-based radiation detection system that operates ...