Chinese scientists have given an overview on the principle of different types of narrowband EM absorbers.
Kristin Mädefessel-Herrmann
Cancer all-clear for nonlinear optical imaging
Dutch researchers have estimated the risk of squamous cell cancer induction in skin following nonlinear optical imaging.
Combed radio frequencies: an overview
Optical frequency comb technology for ultra-broadband radio-frequency photonics.
Improved early detection of esophagus dysplasia
A novel screening approach for discriminating dysplasia from metaplasia in Barrett’s Esophagus using diffuse reflectance spectroscopy.
A better look into arteries
Multispectral fluorescence lifetime imaging system with ultrasound guidance could improve intravascular diagnostics and analysis of atherosclerotic lesions.
Ultra-black silicon makes an excellent broadband absorber
A novel ultra-black broadband absorber concept based on a needle-like silicon nanostructure has been developed by Jena researchers.
Controlling light with light
A new approach to control light with light without the need for optical nonlinearity has been suggested by a Russian-British research group.
CARS microscopy on its way to clinical translation
Coherent anti-Stokes Raman scattering microscopy offers noninvasive label-free imaging, high sensitivity, and chemical specificity.
Exploiting synergies – multimodal nonlinear imaging in the biomedical sciences
Multimodal nonlinear microscopy has matured to a key imaging modality in life science and biomedicine.
Vibrational molecular pathology
IR and Raman spectral imaging can distinguish between tissue types, disease types and stages, and even identify the primary tumors from spectral patterns observed in metastatic cells.