Add to ORKGWe present a simple analytic scheme for calculating the binding energy of excitons in semiconductors that takes full account of the existing anisotropy in the effective mass, as a complement to the qualitative treatment in most textbooks. Results obtained for excitons in gallium nitride form the basis for a discussion of the accuracy of this approach
A non-Hermitian eigenvalue equation is proposed to determine the binding energies and width of core ...
Using a simple two-parameter wavefunction, we calculate variationally the binding energy of positive...
International audienceWe investigate the trion binding energy in a three-dimensional semiconductor, ...
Abstract Excitons in a semiconductor superlattice are studied via an envelope-function app...
International audiencewe calculate the exciton binding energy in several Copper-based I-III-VI2 chal...
We show how to compute the eigenvalues of an anisotropic Schroedinger equation for light- and heavy-...
The binding energies of excitons bound to neutral donors in two-dimensional (2D) semiconductors with...
The excitonic effects on the optical absorption properties of organic semiconductors as well as gall...
Using the hyperspherical adiabatic approach in a coupled-channel calculation, we present precise bin...
A simple calculation of the binding energy of a Wannier exciton taking into account the coupling to ...
We address the interpretation of the splitting between the ground state excitonic transition which ...
Acceptor binding energies in zinc-blende semiconductors are determined within the tight-binding form...
We estimate Bohr radius and binding energy of exciton in bulk as well as quantum well for semiconduc...
The quasi-particle excitation structure in a semiconductor is strongly connected to and determined b...
The theory of exciton spectrum in multi-shell hexagonal semiconductor nanotube is developed within t...
A non-Hermitian eigenvalue equation is proposed to determine the binding energies and width of core ...
Using a simple two-parameter wavefunction, we calculate variationally the binding energy of positive...
International audienceWe investigate the trion binding energy in a three-dimensional semiconductor, ...
Abstract Excitons in a semiconductor superlattice are studied via an envelope-function app...
International audiencewe calculate the exciton binding energy in several Copper-based I-III-VI2 chal...
We show how to compute the eigenvalues of an anisotropic Schroedinger equation for light- and heavy-...
The binding energies of excitons bound to neutral donors in two-dimensional (2D) semiconductors with...
The excitonic effects on the optical absorption properties of organic semiconductors as well as gall...
Using the hyperspherical adiabatic approach in a coupled-channel calculation, we present precise bin...
A simple calculation of the binding energy of a Wannier exciton taking into account the coupling to ...
We address the interpretation of the splitting between the ground state excitonic transition which ...
Acceptor binding energies in zinc-blende semiconductors are determined within the tight-binding form...
We estimate Bohr radius and binding energy of exciton in bulk as well as quantum well for semiconduc...
The quasi-particle excitation structure in a semiconductor is strongly connected to and determined b...
The theory of exciton spectrum in multi-shell hexagonal semiconductor nanotube is developed within t...
A non-Hermitian eigenvalue equation is proposed to determine the binding energies and width of core ...
Using a simple two-parameter wavefunction, we calculate variationally the binding energy of positive...
International audienceWe investigate the trion binding energy in a three-dimensional semiconductor, ...