PRODUCTS |  HYPERSPECTRAL IMAGERS

HYPERSPECTRAL MICROSCOPY          HYPERSPECTRAL WIDEFIELD IMAGING


 

HYPERSPECTRAL MICROSCOPY

RAMAN IMAGING

The global hyperspectral Raman imager (RIMA™) developed by Photon etc. offers a unique solution for rapid spectral and spatial characterization of advanced materials over large areas (up to 1 mm x 1 mm and more). By combining this rich information obtained from Raman spectroscopic fingerprints with the speed of global hyperspectral imaging, RIMA™ extends the limits of sample analysis and is a powerful non-invasive imaging modality for material (RIMA™ NANO) and biomedical (RIMA™ BIOMED) sciences.


LUMINESCENCE IMAGING

Photon etc’s luminescence hyperspectral imaging platforms (IMA™) are designed to provide rapid quantitative spectral analysis of advanced materials and biological samples. IMA™ provides hyperspectral imaging solutions in the visible / near-infrared range (400 nm - 1000 nm) as well as in the short-wave infrared range (900 nm - 1700 nm). Photon etc’s hyperspectral platforms provide photoluminescence (IMA™ PL), fluorescence (IMA™ FLUO) and electroluminescence (IMA™ EL) maps of large areas (up to 1 mm x 1 mm). IMA™ FLUO is designed specifically for life sciences with diodes or filtered white light excitation while IMA PL (laser excitation) and IMA™ EL are intended for materials sciences, with dedicated interfaces and software.


HYPERSPECTRAL WIDEFIELD IMAGERS

Allowing you to completely characterize your target with full-resolution images at any wavelength within 400-1000 nm (V-EOS™) or 1000-2300 nm (S-EOS™), Photon etc’s widefield hyperspectral imagers will change your view of spectral analysis. Acquisition of an optimized hyperspectral cube permits spectral analysis of each and every pixel of a full-resolution image, meaning no more fastidious XY scanning of samples or limiting exposure time of remote sensing acquisitions. Resulting in more than just an increase in efficiency, V-EOS™ and S-EOS™ provide data on both spectral and spatial content, allowing you to perform novel analysis by extending the frontiers of your most demanding applications.