51,99 €
inkl. MwSt.
Versandkostenfrei*
Versandfertig in 6-10 Tagen
  • Broschiertes Buch

Magnetic quantum effects are caused by the energy states of electrons in magnetic fields, such as Landau levels, symmetry 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 magneto spectroscopy, magnetic absorption, and for photomagnetic and quantum processes. The monograph considers magnetic quantum effects in semiconductor structures under the action of external influences d. The results of quantum x oscillatory 's phenomenon that high temperatures and weak magneton fields in bulk and low-dimensional semiconductors.…mehr

Produktbeschreibung
Magnetic quantum effects are caused by the energy states of electrons in magnetic fields, such as Landau levels, symmetry 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 magneto spectroscopy, magnetic absorption, and for photomagnetic and quantum processes. The monograph considers magnetic quantum effects in semiconductor structures under the action of external influences d. The results of quantum x oscillatory 's phenomenon that high temperatures and weak magneton fields in bulk and low-dimensional semiconductors.
Autorenporträt
Erkaboev Ulugbek Inayatillayevich - DSc., prof. Head of the department at the Namangan Engineering and Technological Institute. Sayidov Nozimjon Abdulnosirovich - PhD student at the Namangan Engineering and Technological Institute. Negmatov Ulugbek Bakhrom ugli - Assistant at the Namangan Engineering and Technological Institute.