Due to the valence band maximum degeneracy of cubic semiconductors, a critical size might exist in their fully symmetrical quantum dots. When the size of the quantum dots decreases past this critical size, the originally direct semiconductor becomes indirect and the originally indirect semiconductor becomes less indirect.Physics, AppliedSCI(E)CPCI-S(ISTP)
Quantum effects at the nanometric level have been observed in many confined structures, and partic-u...
Some particular bound state energies of an electron, under Coulomb potential field, confined in a tw...
A semiconductor quantum dot (QD) can generate highly indistinguishable single photons at a high rate...
Using a recently developed new scheme, we investigated the electronic structure of the lowest conduc...
Deposition of one to a few monolayers of a semiconductor having a lattice constant largely dierent f...
A theoretical investigation on how the band structure of bulk semiconductors specifically affects th...
While initial theories on quantum confinement in colloidal quantum dots (QDs) led to analytical band...
Energy levels and oscillator strengths for transitions between the lowest states of an acceptor in a...
Quantum dots (QDs) represent the ultimate limit in charge carrier confine-ment with discrete atomic-...
In this paper, we used the 8-band k$\cdot$p model with valence force field considerations to investi...
The dependence of the limiting energy on the size of spherical quantum points made of GaAs is theore...
Colloidal quantum dots exhibit size-dependent optical properties due to quantum and dielectric confi...
Growth interruption was introduced after the deposition of GaAs cap layer, which is thinner than the...
An analytical solution of the effective mass equation for a spherical valence band in cubic semicond...
The quantum theory of nonlinear effects for optical transitions of electrons in quasi-zero dimension...
Quantum effects at the nanometric level have been observed in many confined structures, and partic-u...
Some particular bound state energies of an electron, under Coulomb potential field, confined in a tw...
A semiconductor quantum dot (QD) can generate highly indistinguishable single photons at a high rate...
Using a recently developed new scheme, we investigated the electronic structure of the lowest conduc...
Deposition of one to a few monolayers of a semiconductor having a lattice constant largely dierent f...
A theoretical investigation on how the band structure of bulk semiconductors specifically affects th...
While initial theories on quantum confinement in colloidal quantum dots (QDs) led to analytical band...
Energy levels and oscillator strengths for transitions between the lowest states of an acceptor in a...
Quantum dots (QDs) represent the ultimate limit in charge carrier confine-ment with discrete atomic-...
In this paper, we used the 8-band k$\cdot$p model with valence force field considerations to investi...
The dependence of the limiting energy on the size of spherical quantum points made of GaAs is theore...
Colloidal quantum dots exhibit size-dependent optical properties due to quantum and dielectric confi...
Growth interruption was introduced after the deposition of GaAs cap layer, which is thinner than the...
An analytical solution of the effective mass equation for a spherical valence band in cubic semicond...
The quantum theory of nonlinear effects for optical transitions of electrons in quasi-zero dimension...
Quantum effects at the nanometric level have been observed in many confined structures, and partic-u...
Some particular bound state energies of an electron, under Coulomb potential field, confined in a tw...
A semiconductor quantum dot (QD) can generate highly indistinguishable single photons at a high rate...
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