Department of Physics of the magnetic phenomena (udder), led by Professor, Corr. NAS SM Riabchenko, was established in 1995 in the laboratory of physics of magnetic phenomena Department of Solid State Electronics. In turn, this laboratory was created in 1983 from parts department staff resonance phenomena before vidpochkuvalysya of crystals Physics Department, headed by professor, academician. NAS of Ukraine AF Pryhotko.
The department brings together experts from radiospektroskopichnyh (electronic paramagnetic, ferromagnetic, antiferromagnetic, nuclear quadrupole resonance), magnetostatic (magnetization, magnetic favorable), magnetoelastic (magnetostriction) and magneto-optical (spectral studies in the magnetic field and optically detected magnetic resonance) studies of solids , krystaliv.viddilu participated in seminars with radio-organized by the Professor, Corr. MF NAS Ukraine Deyhenom, consulted him and his staff, he suffered a substantial impact. So the department arose and evolved as the development of scientific school of Acad. AF Pryhotko at the intersection of scientific school Corr. NAS MF Deyhena.
In UV - Institute of Physics NAS Ukraine have developed dressing materials based on radiation crosslinked hydrogels for the treatment of wounds and burns.More
A new highly efficient technology for volume holographic grating recording in a wavelength range 350-670 nm allows to fabricate optical elements, which are used as polarization elements, interference filters, controlled beam splitters, dispersion laser elements, and diffraction elements for spectral devices.More
The sterilizer generates dense and highly uniform plasma which is particularly suitable for fast and efficient sterilization of medical instruments, especially those with canals and deep holesMore
It used for cutting and etching of plastic, glass, and wooden plates of thickness up to 10 mm. The complex is compact and cost-efficient.More
It is designed for micromachining of metal, ceramics and superhard materials. The technological process includes depositing of the polymer mask on a sample. Then laser radiation evaporates the mask.More
It is designed for precise micromachining, for example microlabeling, of transparent materials. Cheap and reliable neodymium laser of wavelength 1.06 µm or 0.53 µm induces intermediate plasma phase which imparts energy into material.More
It is developed for making holes and cutting of silicon wayfers and other materials. The cutting process is performed in water. Apart from the low pressure water, high pressure water microjet is supplied to the cutting point, providing effective cooling and removal of ablation products.More
They are used together with optical microscopes for microoptical measurements in a range of temperature between 5 K and 1000 K.More
They are important elements of high-stable laser systems engaged in the research experiments in metrology and spectroscopy. The fabricating and quality controlling processes of iodine absorbing cells meet all the requirements of International Committee for Weights and Measures.More
It is designed as a part of automated remote control system (ARCS) for railway rolling stock. It employs twospectral infrared radiometer, which has a vibration-resistant sensor system.More
It is designed to obtain the water quality information using the fotometric method in field environment. Used with the portable laboratory AQUA-TEST 2000, it can measure mass concentrations of 30 substances with accuracy 1–5%.More
They are fabricated of ultrafine (thickness is less that 1 µm) dye films deposited on the liotropic chromonic liquid crystal substrates. Polarizer transmittance is balanced in a wavelength range of 450 – 800 nm.More