Add to ORKGThe electron, hole, and exciton energy spectra are calculated within the effective mass and rectangular potential approximations for a combined semiconductor nanoheterosystem consisting of a cylindrical semiconductor quantum wire crossing the plane quantum well. It is shown that the electron (hole) in such a system is characterized by five quantum numbers related to five degrees of freedom for a quasiparticle. The dependences of the quasiparticle energy on the quantum wire radius and the quantum well width are researched
The semiconductor technology developed mainly from the second half of the twenty century allowed the...
The ability to tune the band-gap energies of semiconductor quantum dots, nanoplatelets, and quantum ...
In order to apply quantum waveguides to electronic devices, we calculate the electrostatic potential...
The energy spectrum of electron and hole is investigated in a complicated nanoheterosystem consistin...
The spectra and lifetimes of an electron, a hole, and an exciton in open cylindrical quantum dots (Q...
The energy spectrum of electron is investigated in complicated nanoheterosystem consisting of two cy...
It is established the theory of exciton spectrum in semiconductor quantum nanotube with hexagon cros...
The effects of transverse electric field on the electronic structures, exciton states and ...
It is established the theory of electron spectrum in semiconductor cylindrical closed quantum dot in...
It was studied a methodology to obtain the electron energy spectrum of a quantum well with infinitel...
The energy spectra of all types of free vibrations existing in combined nanoheterosystem consisting ...
Using the finite volume method we compute within effective mass approximation the single-particle ei...
This paper deals with excitons in quantum wires. We first study these excitons as the limit of excit...
The transition bridge between zero-dimensional quantum dots and one-dimensional quantum wires is exp...
Semiconductor quantum boxes are heterostructures which lead to a total quantization of the exciton e...
The semiconductor technology developed mainly from the second half of the twenty century allowed the...
The ability to tune the band-gap energies of semiconductor quantum dots, nanoplatelets, and quantum ...
In order to apply quantum waveguides to electronic devices, we calculate the electrostatic potential...
The energy spectrum of electron and hole is investigated in a complicated nanoheterosystem consistin...
The spectra and lifetimes of an electron, a hole, and an exciton in open cylindrical quantum dots (Q...
The energy spectrum of electron is investigated in complicated nanoheterosystem consisting of two cy...
It is established the theory of exciton spectrum in semiconductor quantum nanotube with hexagon cros...
The effects of transverse electric field on the electronic structures, exciton states and ...
It is established the theory of electron spectrum in semiconductor cylindrical closed quantum dot in...
It was studied a methodology to obtain the electron energy spectrum of a quantum well with infinitel...
The energy spectra of all types of free vibrations existing in combined nanoheterosystem consisting ...
Using the finite volume method we compute within effective mass approximation the single-particle ei...
This paper deals with excitons in quantum wires. We first study these excitons as the limit of excit...
The transition bridge between zero-dimensional quantum dots and one-dimensional quantum wires is exp...
Semiconductor quantum boxes are heterostructures which lead to a total quantization of the exciton e...
The semiconductor technology developed mainly from the second half of the twenty century allowed the...
The ability to tune the band-gap energies of semiconductor quantum dots, nanoplatelets, and quantum ...
In order to apply quantum waveguides to electronic devices, we calculate the electrostatic potential...