Terahertz (THz) radiation, which occupies the frequency band between microwaves and infrared light, is essential in many next-generation applications, including high-speed wireless communications, ...

Purdue University researcher Young Kim and his team have combined computer vision, color science and optical spectroscopy to create an algorithm that recovers detailed spectral information from ...

This research project seeks to address the challenging problem of sharpening remotely sensed hyperspectral imagery with higher resolution multispectral or panchromatic imagery, with a focus on ...

Spectroscopists are often required to identify an unknown compound from a measured spectrum, verifying sample integrity, and defining detected impurities in a sample. Performing a spectral search can ...

Researchers have developed an economical random fractional 13C labeling strategy using methanol for eukaryotic membrane proteins expressed in yeast. This method significantly improves spectral ...

If you’ve ever explored the world of spectral sensing, you’ll know that understanding how materials interact with light has been at the core of many scientific advancements. Traditional spectrometers, ...

The IPERLITE mission is an in-orbit demonstration (IOD) flight designed to demonstrate next-generation hyperspectral imaging technology in space from an orbit of 510 km. At the core of the IPERLITE ...

Firefly satellites deliver unprecedented 5-meter resolution, 150+ spectral bands, and daily global revisit capabilities to empower industries and governments with actionable Earth insights in the ...

With this breakthrough, we may soon see a future where spectral sensing technology becomes as ubiquitous and accessible as the devices in our pockets.