Spinodal nanodecomposition in semiconductors doped with transition metals
This review presents the recent progress in computational materials design, experimental
realization, and control methods of spinodal nanodecomposition under three-and two …
realization, and control methods of spinodal nanodecomposition under three-and two …
Manufacture of magnetic granular structures in semiconductor-ferromagnet systems
SF Marenkin, AD Izotov, IV Fedorchenko… - Russian Journal of …, 2015 - Springer
The requirements are formulated to be fulfilled by magnetic granular structures that have the
giant magnetoresistance (GMR) in semiconductor-ferromagnet systems. A II B IV C 2 V-Mn …
giant magnetoresistance (GMR) in semiconductor-ferromagnet systems. A II B IV C 2 V-Mn …
СИНТЕЗ МАГНИТОГРАНУЛИРОВАННЫХ СТРУКТУР В СИСТЕМАХ ПОЛУПРОВОДНИК ФЕРРОМАГНЕТИК
СФ Маренкин, АД Изотов, ИВ Федорченко… - Журнал …, 2015 - elibrary.ru
Сформулированы требования, предъявляемые к магнитогранулированным структурам,
обладающим эффектом ГМС в системах полупроводник ферромагнетик. Показано, что …
обладающим эффектом ГМС в системах полупроводник ферромагнетик. Показано, что …
Composites based on self-assembled MnAs ferromagnet nanoclusters embedded in ZnSnAs2 semiconductor
IV Fedorchenko, L Kilanski, I Zakharchuk… - Journal of Alloys and …, 2015 - Elsevier
Three self-assembled nanogranular composites based on MnAs ferromagnetic inclusions
embedded in ZnSnAs 2 semiconductors with MnAs concentration 10, 20, 47 mol.% were …
embedded in ZnSnAs 2 semiconductors with MnAs concentration 10, 20, 47 mol.% were …
Phase equilibria in the ZnGeAs2–CdGeAs2 system
IV Fedorchenko, AN Aronov, L Kilanski… - Journal of alloys and …, 2014 - Elsevier
The phase equilibria in the ZnGeAs 2–CdGeAs 2 system were investigated by X-ray, DTA,
EDXRF, microstructure observations and SEM. The solid solutions are present in all range of …
EDXRF, microstructure observations and SEM. The solid solutions are present in all range of …
Changes in the magnetization hysteresis direction and structure-driven magnetoresistance of a chalcopyrite-based magnetic semiconductor
TR Arslanov, L Kilanski, S López-Moreno… - Journal of Physics D …, 2016 - iopscience.iop.org
An unusual change in the hysteresis direction is believed as rare phenomenon associated
with perovskite-type structure. Such'anomalous' magnetization hysteresis could possess a …
with perovskite-type structure. Such'anomalous' magnetization hysteresis could possess a …
Low-dilution limit of Zn1− xMnxGeAs2: Electrical and magnetic properties
L Kilanski, K Szałowski, R Szymczak… - Journal of Applied …, 2013 - pubs.aip.org
We present the studies of electrical transport and magnetic interactions in Zn 1− x Mn x
GeAs 2 crystals with low Mn content 0≤ x≤ 0.042. We show that the ionic-acceptor …
GeAs 2 crystals with low Mn content 0≤ x≤ 0.042. We show that the ionic-acceptor …
Magnetic and electrical properties of Zn3P2 + MnP materials
SF Marenkin, VM Trukhan, IV Fedorchenko… - Inorganic materials, 2013 - Springer
We have synthesized a new ferromagnetic material based on a Zn 3 P 2+ MnP composite
with a Curie temperature of 290 K. Experimental data demonstrate that its magnetic and …
with a Curie temperature of 290 K. Experimental data demonstrate that its magnetic and …
Phase diagram of the ZnSiAs2–MnAs system
IV Fedorchenko, AI Ril, SF Marenkin… - Journal of Crystal …, 2017 - Elsevier
Phase diagram in the ZnSiAs 2–MnAs nanocomposite system was studied by Х-ray, DTA
and SEM. The system has an eutectic character. The coordinates of eutectic are 87±1 mol …
and SEM. The system has an eutectic character. The coordinates of eutectic are 87±1 mol …
Phonon properties of ZnSnSb2 + Mn semiconductors: Raman spectroscopy
M Romcevic, M Gilic, L Kilanski… - Journal of Raman …, 2018 - Wiley Online Library
Abstract Doping of II–IV–V2 semiconductors opens up new opportunities for wide
application. Addition of Mn to these materials induces formation of magnetic clusters, which …
application. Addition of Mn to these materials induces formation of magnetic clusters, which …