WHAT HAS BEEN ACHIEVED
INDUSTRIAL PRODUCTION
We have technology for the industrial production of cadmium tungstate crystals (12 tons of crystals per year) for transport safety systems
SOLUTIONS FOR NUCLEAR PHYSICS
We developed technology of new disordered crystals of solid solutions for the search for rare processes for the Tartu University, Estonia
ADVANCED TECHNOLOGY
We have technology of growing semiconductor crystals diameter of 100 mm with record low dislocation density
SOLUTIONS FOR SCIENTIFIC LABORATORES
We developed technology for production of number scintillation crystals for experiments to search for rare processes in the European underground laboratory
HOW IT WORKS
Growing
crystals
As-grown crystal CdWO4
Processing
crystals
Element
CdWO4
Certification of elements
Final product:
X-ray Cargo Scan
Here you can see the stages of production of crystals elements: the process of growing crystals, return of elements, certification, and application in the final product
APPLICATION EXAMPLES
MICROELECTRONICS
Semiconductors –microelectronics, IR optics, LED, sensors, laser, detectors..
X-RAY SECURITY SCREENING SYSTEMS
Radiation is an important part of security space. Systems relying on radiation require adequate detectors. The most common radiation detectors are based on scintillating materials that convert hard (gamma, x-ray or neutron) radiation into visible light registered by a photodetector.
X-RAY COMPUTER TOMOGRAPHY
Scintillators are used in tomography, transport security systems and research.
SOLAR CELLS
Crystals have been widely used in solar cells in recent years because of their unique optical properties.
LASER
Crystals are also used for solid state lasers in industry and science
SCIENTIFIC EXPERIMENTS
Our crystals are used for various scientific experiments - dark matter, neutrino, axions et al.