A theory of nonanalytic (long-range) exchange interaction between an electron and a hole is developed for zero-dimensional excitons in semiconductor nanostructures. Two particular cases are considered in detail: (i) that of exciton confined in a spherical nanocrystal and (ii) a quantum-well exciton localized as a whole on an anisotropic island of well-width monolayer fluctuation
This dissertation investigates charge carriers in nanoscale devices through theoretical and numerica...
Over several decades, research in semiconductor physics has revealed a rich plethora of physical phe...
We present a study of the elastic exciton-electron (X–e$^-)$ and exciton-hole (X–h) scattering proce...
The description of carrier dynamics in spatially confined semiconductor nanocrystals (NCs), which ha...
Semiconductor self-assembled quantum dots (QDs) are expected to become building blocks of novel opto...
A study of the elastic exciton-exciton Coulomb scattering in a semiconductor quantum well is present...
Abstract: The theory of exciton states in a quantum dot under conditions of dominating polarization ...
AbstractThe theory of excitonic quasimolecules (biexcitons) formed of spatially separated electrons ...
10 pages, 4 figures, 105 references. arXiv admin note: text overlap with arXiv:1605.02348. Réf Jo...
In solid state physics, the combination of an electron and a positively charged hole (absence of ele...
We review our theoretical approach to the optical response of low-dimensional semiconductor structur...
In monolayers of transition metal dichalcogenides the nonlocal nature of the effective dielectric sc...
Abstract: Semiconductor nanocrystals have long been studied as alternatives to traditional bulk semi...
Binding energies and wave functions are calculated for the ground-state exciton in T-shaped quantum ...
International audienceEmerging part of condensed matter science, which deals with the systems of ext...
This dissertation investigates charge carriers in nanoscale devices through theoretical and numerica...
Over several decades, research in semiconductor physics has revealed a rich plethora of physical phe...
We present a study of the elastic exciton-electron (X–e$^-)$ and exciton-hole (X–h) scattering proce...
The description of carrier dynamics in spatially confined semiconductor nanocrystals (NCs), which ha...
Semiconductor self-assembled quantum dots (QDs) are expected to become building blocks of novel opto...
A study of the elastic exciton-exciton Coulomb scattering in a semiconductor quantum well is present...
Abstract: The theory of exciton states in a quantum dot under conditions of dominating polarization ...
AbstractThe theory of excitonic quasimolecules (biexcitons) formed of spatially separated electrons ...
10 pages, 4 figures, 105 references. arXiv admin note: text overlap with arXiv:1605.02348. Réf Jo...
In solid state physics, the combination of an electron and a positively charged hole (absence of ele...
We review our theoretical approach to the optical response of low-dimensional semiconductor structur...
In monolayers of transition metal dichalcogenides the nonlocal nature of the effective dielectric sc...
Abstract: Semiconductor nanocrystals have long been studied as alternatives to traditional bulk semi...
Binding energies and wave functions are calculated for the ground-state exciton in T-shaped quantum ...
International audienceEmerging part of condensed matter science, which deals with the systems of ext...
This dissertation investigates charge carriers in nanoscale devices through theoretical and numerica...
Over several decades, research in semiconductor physics has revealed a rich plethora of physical phe...
We present a study of the elastic exciton-electron (X–e$^-)$ and exciton-hole (X–h) scattering proce...
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