Researchers from Tokyo Metropolitan University have developed a new dye that can strongly absorb second near-IR radiation and transform it to heat.

The team’s new compound can absorb electromagnetic waves in the NIR-II part of the spectrum, where waves can penetrate deeper into human tissue and generate heat, leading to photoacoustic emissions.

The Italian Space Agency and Thales Alenia Space have signed a contract for the implementation of NASA’s Surface Biology and Geology – Therma ...

Unlike conventional aerial photography, MACS Polar 18 acquires datasets in four-band (R-G-B-NIR) multi-spectral orthomosaics, ...

Sgr A*, at the heart of the Milky Way and clocking in at 4.3 million solar masses, is the closest supermassive black hole we have access to. It's also on the quiescent end of the activity scale, which ...

Authenticated data presented in the NIR and Raman Spectroscopy market report is based on findings of extensive primary and secondary research.