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In framework of the adiabatic approximation the energy states of electron as well as direct light absorption are investigated in strongly oblate and strongly prolate ellipsoidal quantum dots (QDs) at presence of electric and magnetic fields. Analytical expressions for particle energy spectrum are obtained. The dependence of energy levels’ configuration on QD geometrical parameters and field intensities is analytically obtained. The energy levels of electrons are shown to be equidistant both for strongly oblate and prolate QDs. The effect of the external fields on direct light absorption of a QD was investigated. The dependence of the absorption edge on geometrical parameters of QDs and intensities of the electric and magnetic fields is obtained. Selection rules are obtained at presence as well as absence of external electric and magnetic fields. In particular, it is shown that the presence of the electric field cancels the quantum numbers selection rules at the field direction, whereas in radial direction the selection rules are preserved. Perspectives of practical applications for device manufacturing based on ellipsoidal quantum dots are outlined.

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Adiabatic description of nonspherical quantum dot models

Гусев

Чулуунбаатар

Vinitsky

et al. 2012

Phys. Atom. Nuclei

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Within the effective mass approximation an adiabatic description of spheroidal and dumbbell quantum dot models in the regime of strong dimensional quantization is presented using the expansion of the wave function in appropriate sets of single-parameter basis functions. The comparison is given and the peculiarities are considered for spectral and optical characteristics of the models with axially symmetric confining potentials depending on their geometric size making use of the total sets of exact and adiabatic quantum numbers in appropriate analytic approximations

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Electronic states in quantum dots with ellipsoidal symmetry

Dvoyan

Kazaryan

Petrosyan

2005

Physica E: Low-dimensional Systems and Nanostructures

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Direct interband light absorption in a strongly oblated ellipsoidal quantum dot

2007

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Impurity States in a Weakly Prolate (Oblate) Ellipsoidal Microcrystal Placed in a Magnetic Field

Dvoyan

Kazaryan

2001

phys. stat. sol. (b)

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Subject classification: 71.55.Eq; S7.12The variational method is used in the framework of perturbation theory, to analyse the impurity states in a weakly oblate (or prolate) semiconductor microcrystal, in the presence of a magnetic field directed along the rotation axis of the sample. For the GaAs semiconductor microcrystal, the dependence of the electronic energy states on the sample dimensions, ellipticity and magnetic field strength is obtained.

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K. G. Dvoyan

Electron States and Light Absorption in Strongly Oblate and Strongly Prolate Ellipsoidal Quantum Dots in Presence of Electrical and Magnetic Fields

Adiabatic description of nonspherical quantum dot models

Electronic states in quantum dots with ellipsoidal symmetry

Direct interband light absorption in a strongly oblated ellipsoidal quantum dot

Impurity States in a Weakly Prolate (Oblate) Ellipsoidal Microcrystal Placed in a Magnetic Field

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