Перегляд за автором "Kuryliuk, A.M."

Сортувати за: Порядок: Результатів:

  • Changes in the state of paramagnetic centers and lattice parameter of micro-structured Si under the influence of weak magnetic field 
    Trachevsky, V.V.; Steblenko, L.P.; Demchenko, P.Y.; Koplak, O.V.; Kuryliuk, A.M.; Melnik, A.K. (Semiconductor Physics Quantum Electronics & Optoelectronics, 2010)
    In this work, the influence of weak magnetic field on structure-dependent properties of micro-structured Si was determined. The researches of EPR-spectra inherent to micro-structured Si showed the presence of the spectral ...
  • Effect of magnetic field on microhardness of germanium 
    Makara, V.A.; Steblenko, L.P.; Kuryliuk, A.M.; Naumenko, S.M.; Kolchenko, Iu.L.; Kravchenko, V.M. (Functional Materials, 2007)
    Microhardness variations in germanium crystals caused by a weak constant magnetic field have been studied. It is fount that the magnetomechanical effect, that is relative change in microhardness, becomes relaxed in time. ...
  • Magnetic-Field-Stimulated Modification of Surface Charge and Defect Content in Silicon for Solar Energy Storage 
    Makara, V.A.; Steblenko, L.P.; Korotchenkov, O.A.; Nadtochiy, A.B.; Kalinichenko, D.V.; Kuryliuk, A.M.; Kobzar, Yu.L.; Krit, O.M. (Металлофизика и новейшие технологии, 2014)
    The effect of a weak static magnetic field on the structure and charge state of silicon for solar energy storage is investigated. As found, the magnetic-fieldstimulated changes in the defect—impurity state and surface ...
  • Silicon crystal strength reduction due to magnetoresonance 
    Makara, V.A.; Pogorilyi, A.M.; Steblenko, L.P.; Kuryliuk, A.M.; Naumenko, S.M.; Kobzar, Yu.L.; Kravets, A.F.; Podyalovsky, D.I.; Matveeva, O.V. (Functional Materials, 2007)
    The magnetoresonance influence as well as the micrawave superhigh-frequency (SHF) magnetic field effect on the microhardness of silicon crystals has been studied. It is established that the action of SHF field results in ...
  • The relaxation of magnetomechanical effect in silicon crystals under cyclic magnetic treatment 
    Makara, V.A.; Steblenko, L.P.; Kuryliuk, A.M.; Kobzar, Iu.L.; Naumenko, S.M.; Krit, A.M.; Kravchenko, V.M. (Functional Materials, 2009)
    The experimental magnetic treatment conditions of silicon crystals in a weak (B = 0.17 T) magnetic field which provide a long-term stability of magnetomechanical effect (MME) have been investigated. It is established that ...