Spectral imaging is increasingly important in science and technology.Going beyond conventional RGB imaging,it captures both spatial and spectral information,providing distinctive light fingerprints that can uncover th...Spectral imaging is increasingly important in science and technology.Going beyond conventional RGB imaging,it captures both spatial and spectral information,providing distinctive light fingerprints that can uncover the composition,properties,and dynamics of materials through light-matter interactions.This capability is valuable in a wide range of fields,including food safety,medical diagnostics,and agricultural monitoring.1 However,current spectral imaging systems remain bulky and complex because traditional spectrometers typically depend on gratings or interferometers,often with moving parts,which makes miniaturization difficult.展开更多
文摘Spectral imaging is increasingly important in science and technology.Going beyond conventional RGB imaging,it captures both spatial and spectral information,providing distinctive light fingerprints that can uncover the composition,properties,and dynamics of materials through light-matter interactions.This capability is valuable in a wide range of fields,including food safety,medical diagnostics,and agricultural monitoring.1 However,current spectral imaging systems remain bulky and complex because traditional spectrometers typically depend on gratings or interferometers,often with moving parts,which makes miniaturization difficult.
