Temperature Dependence of Quantum Oscillations in Semiconductors - Gulyamov, G.;ERKABOEV, U.I.;SAYIDOV, N.A.
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The monograph considers magnetic quantum effects in semiconductor structures under the influence of external influences. The results of quantum oscillation phenomena at high temperatures and weak magnetic fields in bulk and low-dimensional semiconductors are presented. Magnetic quantum effects are due to the energy states of electrons in magnetic fields, such as Landau levels, impurity states, exciton states, or other electronic states included in various interaction and excitation potentials. Among other things, Landau levels are states that play an important role in magnet spectroscopy, magnet absorption, photomagnetic and quantum processes.…mehr

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Produktbeschreibung
The monograph considers magnetic quantum effects in semiconductor structures under the influence of external influences. The results of quantum oscillation phenomena at high temperatures and weak magnetic fields in bulk and low-dimensional semiconductors are presented. Magnetic quantum effects are due to the energy states of electrons in magnetic fields, such as Landau levels, impurity states, exciton states, or other electronic states included in various interaction and excitation potentials. Among other things, Landau levels are states that play an important role in magnet spectroscopy, magnet absorption, photomagnetic and quantum processes.
Autorenporträt
G.Gulyamov - Professor of the Department of Physics of the Namangan Engineering and Construction Institute. U.I.Erkaboev - Doctor of Physical and Mathematical Sciences (DSc), Head of the Department of Information Technologies, Namangan Engineering and Technology Institute.N.A.Sayidov - PhD student, Namangan Engineering and Technology Institute.