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This book presents the physical characteristics and possible device
applications of europium monoxide as well as materials based on it.
It reveals the suitability of this material for device applications
in super- and semiconductor spin electronics. Ferromagnetic
semiconductors like europium monoxide have contributed to a
fascinating research field in condensed matter physics. In the book
are presented the electronic and magnetic properties and thermal
and resonance parameters of this material, its peculiarities in
external fields as a function of non-stoichiometry, doping level,
both in single-crystal and thin-film states. Particular attention
is paid to the possibility to use this monoxide or its solid
solutions (composites) unconventionally for creating spin
electronics structures which work at room temperature conditions.
This book appeals to researchers, graduate students and
professionals engaged in the development of semiconductor spin
electronics and computer devices, technologists and theoretical
physicists. It is important for the calculation, development and
creation of spin memory devices for a quantum computer.
This book presents the physical characteristics and possible device
applications of europium monoxide as well as materials based on it.
It reveals the suitability of this material for device applications
in super- and semiconductor spin electronics. Ferromagnetic
semiconductors like europium monoxide have contributed to a
fascinating research field in condensed matter physics. In the book
are presented the electronic and magnetic properties and thermal
and resonance parameters of this material, its peculiarities in
external fields as a function of non-stoichiometry, doping level,
both in single-crystal and thin-film states. Particular attention
is paid to the possibility to use this monoxide or its solid
solutions (composites) unconventionally for creating spin
electronics structures which work at room temperature conditions.
This book appeals to researchers, graduate students and
professionals engaged in the development of semiconductor spin
electronics and computer devices, technologists and theoretical
physicists. It is important for the calculation, development and
creation of spin memory devices for a quantum computer.
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