E. A. Cherebilo
Russian Academy of Sciences
10 Papers
20 Citations
E. A. Cherebilo is an academic researcher from Russian Academy of Sciences. The author has contributed to research in topics: Pulsed laser deposition & Thin film. The author has an hindex of 2, co-authored 8 publications.
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Papers
Properties of SnO2:Sb films produced on flexible organic substrates by droplet-free pulsed laser deposition method
L. S. Parshina,O. A. Novodvorsky,Olga D. Khramova,I. A. Petukhov,V. A. Mikhalevsky,A. A. Lotin,E. A. Cherebilo,V. Ya. Panchenko +7 more
TL;DR: In this article, a droplet-free pulsed laser deposition method was used to produce thin polyethyleneterephthalate (Sb) films with a minimum resistivity of 5 −J/cm2 on the target and at the oxygen pressure of 20 −mTorr in the vacuum chamber during the deposition.
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Laser synthesis of non-volatile memristor structures based on tantalum oxide thin films
L. S. Parshina,Oleg Alexeyevic Novodvorsky,Olga D. Khramova,D. S. Gusev,Alexander Polyakov,V. A. Mikhalevsky,E. A. Cherebilo +6 more
TL;DR: The amorphous thin TaOx films of different thicknesses with different levels of oxygen vacancy content, which are promising for use as an active region of nonvolatile memristors, were fabricated by the pulsed laser deposition in a drop-free mode on the c-sapphire substrates as discussed by the authors.
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Laser synthesis of thin MnxSi1-x films (x ~ 0.5) on c- and r-Al2O3 substrates at different laser energy densities at the target
Oleg Alexeyevic Novodvorsky,L. S. Parshina,Olga D. Khramova,D. S. Gusev,A. B. Drovosekov,Anastasia Barkalova,V. A. Mikhalevsky,E. A. Cherebilo,Vladimir V. Rylkov +8 more
TL;DR: In this paper, thin films of MnxSi1-x (x ~ 0.5) were obtained by pulsed laser deposition in droplet-free mode on c- and r-Al2O3 substrates at different laser energy densities at the target.
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Magnetoresistance of the p -(InSb + MnSb)/ n -InSb diode structure
Olga D. Khramova,V. A. Mikhalevsky,L. S. Parshina,O. A. Novodvorsky,S. F. Marenkin,A. A. Lotin,E. A. Cherebilo,B. A. Aronzon,A. N. Aronov,V. Ya. Panchenko +9 more
TL;DR: In this article, the p-(InSb+MnSb)/n-inSb diode structures have been produced by the pulse laser deposition method on the n-INSb single-crystal substrates from the targets in which positive giant magnetoresistance at 298 K in forward bias and at the application of the magnetic field of 0.15 T was observed.
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