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Simulation of temperature dependence of oscillations of longitudinal magnetoresistance in nanoelectronic semiconductor materials

Ulugbek Erkaboev, R. G. Rakhimov

2023e-Prime - Advances in Electrical Engineering Electronics and Energy15 citationsDOIOpen Access PDF

Abstract

In this work, the influence of two-dimensional state density on oscillations of transverse electrical conductivity in heterostructures with rectangular quantum wells is investigated. A new analytical expression is derived for calculating the temperature dependence of the transverse electrical conductivity oscillation and the magnetoresistance of a quantum well. For the first time, a mechanism has been developed for oscillating the transverse electrical conductivity and magnetoresistance of a quantum well from the first-order derivative of the magnetic field (differential) ∂(ρ⊥2d(E,B,T,d))∂B at low temperatures and weak magnetic fields. The oscillations of electrical conductivity and magnetoresistance of a narrow-band quantum well with a non-parabolic dispersion law are investigated. The proposed theory investigated the results of experiments of a narrow-band quantum well (InxGa1-xSb).

Topics & Concepts

MagnetoresistanceCondensed matter physicsQuantum oscillationsMagnetic fieldOscillation (cell signaling)Electrical resistivity and conductivityHeterojunctionQuantum wireConductivityQuantum wellMaterials scienceDispersion (optics)PhysicsQuantumQuantum mechanicsChemistryFermi surfaceLaserBiochemistrySuperconductivitySemiconductor Quantum Structures and DevicesQuantum and electron transport phenomenaAdvancements in Semiconductor Devices and Circuit Design
Simulation of temperature dependence of oscillations of longitudinal magnetoresistance in nanoelectronic semiconductor materials | Litcius