The laboratory allows the study of the internal structures of technical and biological objects by optical methods, as well as allows spectral studies of objects for the lighting industry (new types of LED light sources), protective layers, unique layers for medical applications, including studies of the spectral characteristics of information visualization elements and modules.
A stand for optical non-invasive studies of the properties and characterization of materials and components allowing optimization of their manufacturing technology and expansion of their application domain using:
- optical coherence tomography - is a method that allows non-invasive testing of thin films and components,
- spectroradiometry - this is a method that allows the study of the properties of dispensers, light sources and passive (non-light-emitting) components.
Purpose:
Optical tomographic imaging:
- study of the structure of layered and porous objects,
- OCT examination of electronic components, modules and circuits (e.g. MEMS, MOEMS, PCBs, photovoltaic components),
- OCT measurements for the food industry,
- testing of the structure and properties of laminates used in industry (yachting, automotive, aerospace, furniture, packaging),
- OCT non-destructive testing of small-dimensional structures for forensic science.
Spectroradiometric testing:
- photometric and colorimetric studies of dispensers and microdisplays (LCD, LED, OLED, plasma, projection),
- characterization of modern light sources (spectral characteristics, color temperature, CRI),
- study of photometric and colorimetric properties of objects in reflective mode (paint and varnish coatings, historical objects, ceramic objects, food industry).
Associated services:
- study of spatial homogeneity of photometric and colorimetric parameters of flat objects,
- study of directional characteristics of light sources.
Laboratory manager
Prof. Jerzy Pluciński
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