0000000000200784

AUTHOR

J. Bosch Bailach

showing 3 related works from this author

On the anomalous Stark effect in a thin disc-shaped quantum dot

2010

The effect of a lateral external electric field F on an exciton ground state in an InAs disc-shaped quantum dot has been studied using a variational method within the effective mass approximation. We consider that the radial dimension of the disc is very large compared to its height. This situation leads to separating the excitonic Hamiltonian into two independent parts: the lateral confinement which corresponds to a two-dimensional harmonic oscillator and an infinite square well in the growth direction. Our calculations show that the complete description of the lateral Stark shift requires both the linear and quadratic terms in F which explains that the exciton possess nonzero lateral dipo…

PhysicsCondensed matter physicsExcitonParticle in a boxCondensed Matter PhysicsIndiumArsenicalsNanostructuressymbols.namesakeDipoleElectromagnetic FieldsVariational methodModels ChemicalStark effectPolarizabilityQuantum DotssymbolsQuantum TheoryGeneral Materials ScienceParticle SizeHamiltonian (quantum mechanics)Harmonic oscillatorJournal of Physics: Condensed Matter
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Magnetic field and dielectric environment effects on an exciton trapped by an ionized donor in a spherical quantum dot

2017

Abstract Magnetic field and host dielectric environment effects on the binding energy of an exciton trapped by an ionized donor in spherical quantum dot are investigated. In the framework of the effective mass approximation and by using a variational method, the calculations have been performed by developing a robust ten-terms wave function taking into account the different inter-particles correlations and the distortion of symmetry induced by the orientation of the applied magnetic field. The binding and the localization energies are determined as functions of dot size and magnetic field strength. It appears that the variation of magnetic shift obeys a quadratic law for low magnetic fields…

PhysicsCondensed matter physicsMagnetic energyDemagnetizing field02 engineering and technology021001 nanoscience & nanotechnologyCondensed Matter Physics01 natural sciencesMagnetic susceptibilityMagnetic fieldMagnetizationParamagnetism0103 physical sciencesDiamagnetismGeneral Materials ScienceElectrical and Electronic Engineering010306 general physics0210 nano-technologyMagnetic dipoleSuperlattices and Microstructures
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Lateral induced dipole moment and polarizability of excitons in a ZnO single quantum disk

2013

The lateral Stark shift of an exciton confined in a single ZnO quantum thin disk of radius R was calculated using a variational approach within the two bands effective mass approximation. It is shown that the exciton has a non negligible induced dipole moment when an external electric field is applied mainly for electron-hole separation below to the 3D excitonic Bohr radius. The behavior of the exciton lateral Stark shift proves the existence of an important correlation between the polarizability and the induced dipole moment.

PhysicsCondensed matter physicsCondensed Matter::OtherExcitonQuantum-confined Stark effectGeneral Physics and AstronomyCondensed Matter::Mesoscopic Systems and Quantum Hall EffectCondensed Matter::Materials Sciencesymbols.namesakeDipoleStark effectPolarizabilityQuantum dotsymbolsPhysics::Atomic PhysicsBohr radiusBiexcitonJournal of Applied Physics
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