Life Sciences Researchers develop non-destructive quantum imaging method Researchers have devised a new approach that uses quantum entanglement and a genetic algorithm to image micrometre-sized samples without damaging them Latest Content Using retinal imaging to predict Parkinson’s decline AI utilised to improve retinal imaging results Mikrotron cameras capture kicking velocity in football research White papers Carbon nanotube applications and luminescence-based imaging with SWIR cameras Examples of how deeply cooled scientific SWIR InGaAs cameras are being used as enabling technologies for luminescence-based imaging of nanotubes JAI white paper: How does prism technology help to achieve superior colour image quality? This white paper outlines the advantages of prism-based 3-CMOS R-G-B area scan camera technology compared More content Using retinal imaging to predict Parkinson’s decline AI utilised to improve retinal imaging results Mikrotron cameras capture kicking velocity in football research USGS maps Puerto Rico landscape with aerial hyperspectral imaging New THz biosensor detects skin cancer with high accuracy Ultrafast imaging captures microscopic shockwave in a cell for the first time Teledyne long-exposure camera benefits life sciences applications AI-driven system speeds up terahertz imaging 400k-pixel superconducting camera to advance life sciences, astronomy AI system shows promise for automated pain detection Camera footage reveals how woodpeckers avoid stuck beaks Researchers develop non-destructive quantum imaging method Pagination Page 1 Next page Next ›
