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Long-wave Absorption of Few-Hole Gas in Prolate Ellipsoidal Ge/Si Quantum Dot: Implementation of Analytically Solvable Moshinsky Model

David B. Hayrapetyan, É. M. Kazaryan, M.A. Mkrtchyan, H.A. Sarkisyan

2020Nanomaterials15 citationsDOIOpen Access PDF

Abstract

In this paper, the behavior of a heavy hole gas in a strongly prolate ellipsoidal Ge/Si quantum dot has been investigated. Due to the specific geometry of the quantum dot, the interaction between holes is considered one-dimensional. Based on the adiabatic approximation, it is shown that in the z-direction, hole gas is localized in a one-dimensional parabolic well. By modeling the potential of pair interaction between holes in the framework of oscillatory law, the problem is reduced to a one-dimensional, analytically solvable Moshinsky model. The exact energy spectrum of the few-hole gas has been calculated. A detailed analysis of the energy spectrum is presented. The character of long-wave transitions between the center-of-mass levels of the system has been obtained when Kohn theorem is realized.

Topics & Concepts

Prolate spheroidPhysicsAdiabatic processAdiabatic theoremEllipsoidQuantum mechanicsQuantum dotAbsorption (acoustics)Condensed matter physicsClassical mechanicsOpticsAstronomySemiconductor Quantum Structures and DevicesQuantum and electron transport phenomenaPhotonic and Optical Devices
Long-wave Absorption of Few-Hole Gas in Prolate Ellipsoidal Ge/Si Quantum Dot: Implementation of Analytically Solvable Moshinsky Model | Litcius