Accurately and non-destructively maps the chemical composition, quality, and physical properties of materials. Available in spectral configurations ranging from 400 to 2500 nm.
Advanced UV hyperspectral imaging from 220 to 380 nm for the analysis of electronic transitions in minerals, semiconductors, and pharmaceutical products.
The Headwall BlueEye Gen 2 reveals information that is invisible to both visible light and infrared imaging. By measuring molecular absorption, fluorescence signals, and biological markers within the UV spectral range of 220 to 380 nm, the system enables early detection of contaminants and material deviations while delivering exceptional analytical performance for industrial production and R&D applications.
UV hyperspectral imaging from 220 to 380 nm
Combined absorption and fluorescence detection in a single system
High spectral resolution of less than 2 nm
1,648 spatial pixels and 1,750 spectral pixels
Real-time visualization with inline deployment capability
Available in passive-cooled and TEC-cooled configurations
Configurable with UV illumination, protective enclosure, and ozone mitigation
Integrated with perClass Mira software
Quality control and contamination detection in the food and pharmaceutical industries
Characterization of pharmaceutical tablets
Forensic investigations and cultural heritage analysis
Adhesive analysis
Chemical analysis of minerals and semiconductors
Authentication and counterfeit detection of documents, passports, banknotes, and works of art
Our VCA-certified specialists understand both your instrumentation and application and provide fast, expert support on site.
We support you throughout every stage of the process, from selection and integration to calibration, data interpretation, and maintenance.
We combine our expertise, instrumentation, and service to ensure your measurement solutions deliver optimal performance and maximum value.
Do you have a question or would you like to discuss your measurement challenges? Our specialists will be happy to help you find the most suitable solution.